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Exam Code: MCD-ASSOC MuleSoft Certified Developer - Integration and API Associate techniques January 2024 by Killexams.com team

MCD-ASSOC MuleSoft Certified Developer - Integration and API Associate

• Format: Multiple-choice, closed book

• Length: 60 questions

• Duration: 120 minutes (2 hours)

• Pass score: 70%

• Language: English



Explaining application network basics Resources

• Explain MuleSoft’s proposal for closing the IT delivery gap.

• Describe the role and characteristics of the “modern API.”

• Describe the purpose and roles of a Center for Enablement (C4E).

• Define and describe the benefits of API-led connectivity and
application networks.

• Define and correctly use the terms API, API implementation, API
interface, API consumer, and API invocation.

• Describe the basics of the HTTP protocol and the characteristics of
requests and responses.

• Describe the capabilities and high-level components of Anypoint
Platform for the API lifecycle.

• DEV: FUN3 Module 1

• DEV: FUN3 Module 2

Designing and consuming APIs

• Describe the lifecycle of the “modern API.”

• Use RAML to define API resources, nested resources, and methods.

• Identify when and how to define query parameters vs URI
parameters.

• Use RAML to define API parameters, requests, and responses.

• Use RAML to define reusable data types and format-independent
examples.

• Read a RAML spec and formulate RESTful requests with query
parameters and/or headers as appropriate.

• DEV: FUN3 Module 3

• DEV: DIY3 Exercise 3-1 and 4-1

Accessing and modifying Mule messages

• Describe the Mule message data structure.

• Use transformers to set message payloads, message properties, and
flow variables.

• Write MEL expressions to access and modify message payloads,
message properties, and flow variables.

• Enrich Mule messages using the Message Enricher.

• DEV: FUN3 Module 6

• DEV: DIY3 Exercise 6-1

Structuring Mule applications

• Parameterize an application using property placeholders.

• Define and reuse global configurations in an application.

• Break an application into multiple flows using private flows, subflows,
and the Flow Reference component.

• Specify what data (payload, message properties, flow variables) is
persisted between flows when a Flow Reference is used.

• Specify what data (payload, message properties, flow variables) is
persisted between flows when a Mule message crosses a transport
boundary.

• Specify what data (payload, message properties, flow variables)
exists in a flow before and after a call in the middle of a flow to an
external resource.

• DEV: FUN3 Module 7

• DEV: DIY3 Exercise 7-1 and 7-2

Building API implementation interfaces

• Manually create a RESTful interface for a Mule application.

• Describe the features and benefits of APIkit.

• Use APIkit to create implementation flows from a RAML file.

• Describe how requests are routed through flows generated by APIkit.

• DEV: FUN3 Module 4

• DEV: DIY3 Exercise 4-1

Routing messages

• Use the Choice router to route messages based on conditional logic.

• Use the Scatter-Gather router to multicast messages.

• Use Filters to filter Mule messages.

• Validate data using the Validation module.

• DEV: FUN3 Module 10

• DEV: DIY3 Exercise 10-1 and 10-2

Handling errors

• Describe the default exception strategy in a Mule application.

• Define a custom global default exception strategy for an application
and identify in what situations it will be used.

• Define exception strategies for flows.

• Combine multiple catch exception strategies in a choice exception
strategy.

• DEV: FUN3 Module 9

• DEV: DIY3 Exercise 9-1 and 9-2

Transforming data with DataWeave

• Write DataWeave scripts to convert JSON, XML, and Java data
structures to different data structures and data types.

• Use DataWeave operators.

• Define and use custom data types.

• Apply correct DataWeave syntax to coerce data types.

• Apply correct DataWeave syntax to format strings, numbers, and
dates.

• Call Mule flows from a DataWeave script.

• Call global MEL functions from a DataWeave script.

• DEV: FUN3 Module 11

• DEV: DIY3 Exercise 11-1

Using Connectors

• Retrieve data from a Database using the Database connector.

• Retrieve data from a REST service using HTTP Request.

• Use a Web Service Consumer connector to consume SOAP web
services.

• Use the Transform Message component to pass arguments to a
SOAP web service.

• List, read, and write local files using the File connector.

• List, read, and write remote files using the FTP connector.

• Use the JMS connector to publish and listen for JMS messages.

• DEV: FUN3 Module 4

• DEV: FUN3 Module 8

• DEV: FUN3 Module 12

• DEV: DIY3 Exercise 4-1,8-1, 12-1, and 12-2

Processing records

• List and compare and contrast the methods for processing individual
records in a collection.

• Explain how Mule messages are processed by the Foreach scope .

• Use the Foreach scope to process records.

• Explain how Mule messages are processed in a Batch job.

• Use a Batch element with Batch Steps, Batch Filters, and a Batch
Commit to process records.

• Use the Poll component to trigger a flow.

• Describe the features, benefits, and process to use watermarking.

• Configure watermarks in the Poll scope.

• Persist data between flow executions using the Object Store.

• DEV: FUN3 Module 12

• DEV: FUN3 Module 13

• DEV: DIY3 Exercise 13-1

Debugging and troubleshooting Mule applications

• Use breakpoints to inspect a Mule message during runtime.

• Install missing dependencies and drivers to a Mule project.

• Read and decipher Mule log error messages.

• DEV: FUN3 Module 6

• DEV: FUN3 all WTs

• DEV: DIY3 Exercise 6-1

• DEV: DIY3 all exercises

Deploying and managing APIs and integrations

• Package Mule applications for deployment.

• Deploy applications to CloudHub.

• Use CloudHub properties to ensure deployment success.

• Create and deploy API proxies.

• Connect an API implementation to API Manager using
autodiscovery.

• Use policies, including client ID enforcement, to secure an API.

• Create SLA tiers and apply SLA based policies.
MuleSoft Certified Developer - Integration and API Associate
Mulesoft Integration techniques

Other Mulesoft exams

Mulesoft-CD MuleSoft Certified Developer -Level 1 (MCD-Level1)
MCD-ASSOC MuleSoft Certified Developer - Integration and API Associate
MCIA-Level-1 MuleSoft Certified Integration Architect - Level 1
MCPA-Level-1 MuleSoft Certified Platform Architect - Level 1
MCD-Level-2 MuleSoft Certified Developer Level 2

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Question: 53
A RAML specification is defined to manage customers with a unique identifier for each customer record. What URI does Mulesoft recommend to
uniquely access the customer identified with the unique ID 1234?
A. /customers/1234
B. /customers?operation=get&custid=1234
C. /customers/custid=1234
D. /customers?custid=1234
Answer: A
Reference: https://dzone.com/articles/designing-api-with-raml
Question: 54
Refer to the exhibits. What value is logged after a web client submits a request to http://localhost:8081/test?userName=Cindy?
A. null
B. Alice
C. Cindy
D. Bob
Answer: A
Question: 55
Refer to the exhibits. What is the expected payload at the end of mainFlow?
A. KIWI
B. APPLE
C. Null
D. BANANA
Answer: A
Question: 56
Refer to the exhibit. What DataWeave expression transforms the input to the output?
A.
B.
C.
D.
Answer: A
Explanation
Reference: https://blogs.mulesoft.com/dev/anypoint-platform-dev/weaving-it-with-dataweave-expression/
Question: 57
Refer to the exhibit. What is the output payload in the On Complete phase?
A. The records processed by all batch steps: [StepTwoStepOne1, StepTwoStepOne2, StepTwoStepOne3]
B. Summary statistics with NO record data
C. The original payload: [1,2,3]
D. The records processed by the last batch step: [StepTwo1, StepTwo2, StepTwo3]
Answer: D
Reference: https://docs.mulesoft.com/mule-runtime/4.2/batch-processing-concept
Question: 58
Refer to the exhibits. The http:request has failed with a Tiemout execeeded error. What HTTP Request parameter must be modified to resolve this error?
A. Client Certificate Timeout
B. Transaction Timeout
C. Connect Idle Timeout
D. Response Timeout
Answer: D
Reference: https://help.mulesoft.com/s/article/Getting-Error-sending-HTTP-request-when-sending-request-using-http-requester
Question: 59
Refer to the exhibits. A Mule application is configured to use the globalErrorHandler exception handler.
When the flow is executed, a request is made to a host that is currently offline and a Java exception is thrown with the message "Error sending HTTP
request to http://offline.bad:80/".
What response is returned to a web client request to postToOfflineHostFlows HTTP Listener?
A. AFTER
B. BEFORE
C. Error sending HTTP request to http://offline.bad:80/
D. GLOBAL ERROR
Answer: C
Question: 60
Refer to the exhibit. All three of the conditions for the Choice router are true. What message processors are executed?
A. First
B. First, Default
C. First, Middle, Last
D. First, Middle, Last, Defaul
Answer: C
Reference: https://docs.mulesoft.com/mule-runtime/3.9/choice-flow-control-reference
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Mulesoft Integration techniques - BingNews https://killexams.com/pass4sure/exam-detail/MCD-ASSOC Search results Mulesoft Integration techniques - BingNews https://killexams.com/pass4sure/exam-detail/MCD-ASSOC https://killexams.com/exam_list/Mulesoft MuleSoft Platform Enables Salesforce To Deliver A Connected Customer Experience

ARTICLE TITLE HERE

Salesforce

MuleSoft CEO Greg Schott and Salesforce CEO Marc Benioff sat down together in February and started thinking about how they could bring their businesses together.

Salesforce was a pioneer in the digital transformation revolution, Schott said Wednesday in a keynote at Salesforce's Dreamforce conference. And MuleSoft thought of its integration technology "as the engine of digital transformation, at the core of digital transformation."

Both executives appreciated that natural synergy, Schott told attendees, culminating four months ago in the largest acquisition in Salesforce history.

[Related: Salesforce’s Einstein Finds Its Voice]

Integrating disparate apps, data sources and workflows is vital in the modern enterprise—and an extremely cumbersome and fraught process without the right technology, Schott said.

At its core, integration "really comes down to the API," he said. "The API is at the center of it."

The Internet took off in the 1990s, after existing quietly for two decades, because HTML was, in a sense, the "the world's first big API," he told attendees.

That vision led MuleSoft to build its Anypoint platform. Anypoint is like the Salesforce AppExchange, except instead of applications, it exposes to developers and partners to a wide selection of APIs for connecting systems.

That technology is now the core of Salesforce's Integration Cloud, a crucial component of the CRM leader's efforts to enable sales agents, marketers and business leaders to see a comprehensive view of their customers.

Vidya Peters, MuleSoft's chief marketing officer, said Salesforce's new customer 360 capability unifies the user experience across Salesforce clouds. But the modern enterprise has, on average, more than 1,000 apps, and many of them need to share data with Salesforce.

"That's where MuleSoft comes in," Peters said.

The integration platform delivers the APIs for a menu of target applications, visual flow charts for mapping between systems, and an orchestration engine that implements the business logic needed to effectively connect them.

MuleSoft also developed machine learning capabilities to recommend integration techniques, augmenting the efforts of developers connecting various solutions.

"Wiring applications" with point-to-point code is unstainable, Peters said.

"Delivering a connected customer experience is the new battleground," she told Dreamforce attendees.

Thu, 27 Sep 2018 00:16:00 -0500 text/html https://www.crn.com/news/cloud/mulesoft-platform-enables-salesforce-to-deliver-a-connected-customer-experience
Salesforce to acquire integration platform provider MuleSoft

Salesforce has entered into an agreement to acquire MuleSoft for roughly US$6.5 billion. MuleSoft is a platform for building application networks to connect apps, data, and devices.

According to Salesforce, together the two companies will be able to help accelerate digital transformations for their customers. They will allow customers to create better user experiences and make smarter decisions more quickly.

“Every digital transformation starts and ends with the customer,” said Marc Benioff, chairman and CEO of Salesforce. “Together, Salesforce and MuleSoft will enable customers to connect all of the information throughout their enterprise across all public and private clouds and data sources—radically enhancing innovation. I am thrilled to welcome MuleSoft to the Salesforce Ohana.”

After the acquisition, MuleSoft will continue on with the company’s vision of application networks with its Anypoint Platform. In addition, MuleSoft will power the Salesforce Integration Cloud, enabling customers to drill down into data and create intelligent customer experiences.

The acquisition is expected to be completed by July 2018, as long as customary closing conditions are satisfactory.

“With the full power of Salesforce behind us, we have a tremendous opportunity to realize our vision of the application network even faster and at scale,” said Greg Schott, Chairman and CEO of MuleSoft. “Together, Salesforce and MuleSoft will accelerate our customers’ digital transformations enabling them to unlock their data across any application or endpoint.”

Tue, 20 Mar 2018 12:00:00 -0500 en-US text/html https://sdtimes.com/digx/salesforce-acquire-integration-platform-provider-mulesoft/
Approximate Integration:

Implementations of the following numerical integration techniques are given below: Left-hand Riemann sum, Right-hand Riemann sum, Midpoint Rule, Trapezoid Rule, and Simpson's Rule. Modify and evaluate the SageMath code as you wish.

Each function takes as input a function \(f\), an interval \([a,b]\), and an integer \(n\). Recall \(\Delta x = \frac{b-a}{n}\) and \(x_i = a+i\Delta x\) for each \(0\le i \le n\).

Left-Hand Riemann Sum:

The function lefthand_rs outputs the left-hand Riemann sum approximation of \(\int_a^b f(x) dx\) using n partitions of the interval: $$\int_a^bf(x)dx \approx \sum_{i=1}^n f(x_{i-1})\Delta x = \Delta x(f(x_0)+f(x_1)+\cdots +f(x_{n-1})).$$

Right-Hand Riemann Sum:

The function righthand_rs outputs the right-hand Riemann sum approximation of \(\int_a^b f(x) dx\) using n partitions of the interval: $$\int_a^bf(x)dx \approx \sum_{i=1}^n f(x_{i})\Delta x = \Delta x(f(x_1)+f(x_1)+\cdots +f(x_{n})).$$

Midpoint Rule:

The function midpoint_rule outputs the midpoint rule approximation of \(\int_a^b f(x) dx\) using n partitions of the interval: $$\int_a^bf(x)dx \approx \sum_{i=1}^n f(\overline{x}_{i-1})\Delta x,$$ where \(\overline{x}_i\) is the midpoint of inteval \([x_{i-1},x_i]\), which is \(\overline{x}_i=\frac{x_{i-1}+x_i}{2}\).

Trapezoid Rule:

The function trapezoid_rule outputs the trapezoid rule approximation of \(\int_a^b f(x) dx\) using n partitions of the interval: $$\int_a^bf(x)dx \approx \frac{\Delta x}{2}(f(x_0)+2f(x_1)+2f(x_2)+ \cdots + 2f(x_{n-1})+f(x_n)).$$

Simpsons Rule:

The function simpsons_rule outputs the Simpson's Rule approximation of \(\int_a^b f(x) dx\) using n partitions of the interval: $$\int_a^bf(x)dx \approx \frac{\Delta x}{3}(f(x_0)+4f(x_1)+2f(x_2)+4f(x_3)+ \cdots + 2f(x_{n-2})+4f(x_{n-1})+f(x_n)).$$ Note: n must be even.

Piecewise Defined Functions:

Sometimes you may find the need to define \(f\) as a piecewise defined function. For example, suppose you are trying to approximate the integral \(\int_{0}^{10} f(x)~dx\) where $$f(x)=\begin{cases} \displaystyle x,&x\le 5\\ x^2,&x > 5\\ \end{cases} $$ (not that you would not need to approximate in this case since you can easily find antiderivates, but we'll just use it as a simple example).

We can replace the line "f(x) = ..." in the code above with a python function defining \(f\):

def f(x):
    if x<=5:
        return x;
    elif x>5:   # elif means "else if"
        return x^2;
Try to cut-and-paste this code to replace the function \(f\) in Simpson's Rule above.
Sat, 06 Nov 2021 09:24:00 -0500 text/html https://www.sfu.ca/~jtmulhol/calculus-applets/html/sagemath-cell-approximate-integration.html
How to Integrate It

Crossref Citations

This Book has been cited by the following publications. This list is generated based on data provided by Crossref.

Stewart, Seán M. 2020. A Catalan constant inspired integral odyssey. The Mathematical Gazette, Vol. 104, Issue. 561, p. 449.


Nemer, Ahlem Kaboul, Hanane and Mokhtari, Zouhir 2021. An adapted integration method for Volterra integral equation of the second kind with weakly singular kernel. Journal of Applied Analysis, Vol. 27, Issue. 2, p. 289.


Wang, Dong Psaras, Vasileios Emhemed, Abdullah A. S. and Burt, Graeme M. 2021. A Novel Fault Let-Through Energy Based Fault Location for LVDC Distribution Networks. IEEE Transactions on Power Delivery, Vol. 36, Issue. 2, p. 966.


Fri, 01 Sep 2023 03:24:00 -0500 en text/html https://www.cambridge.org/core/books/how-to-integrate-it/6030DFD3F3E36C296DDAD3228478FD25
Salesforce Revenue Surges As Growth Continues For CRM Leader

ARTICLE TITLE HERE

Salesforce revenue surged in its first fiscal quarter as the CRM leader worked to integrate recently acquired technologies, especially the MuleSoft integration platform, that it expects to drive future growth.

Its latest quarter, which ended April 30, saw sales above $3 billion for 25 percent year-over-year growth. And Salesforce has $20.4 billion of future revenue already under contract, making it unlikely the pace of expansion will slow anytime soon, CEO Marc Benioff told investors on an earnings call.

Benioff said his company, now above a $12 billion run rate, is well on its way to surpassing the $20 billion annual revenue milestone at a record pace for a software company.

"We think we're going to get there faster than we could have imagined," Benioff said. The company also reported net income of $344 million for the quarter.

[Related: Salesforce Has The Bookings To Soar To A $20B Revenue Run Rate Faster Than Any Other Software Vendor]

Salesforce pleased investors by not only beating on revenue, but also raising guidance for the next quarter to $3.22 billion-$3.23 billion. Salesforce shares, which closed at $126.88 on Tuesday, advanced roughly 4 percent in after-hours trading.

Last month, Salesforce closed its $6.5 billion deal for MuleSoft. The Integration Cloud that will stem from that buy will help win market share in the coming years, the CEO said.

"Integration has never been more strategic," Benioff told investors, citing CEOs who complain to him that their data is "locked in legacy systems."

The MuleSoft integration platform enables customers to connect all their data across public cloud, private cloud, on-premises systems and devices.

The process of bringing MuleSoft's business operations under Salesforce's roof, and transforming the technology into the Salesforce Integration Cloud, is under way, COO Keith Block said.

MuleSoft is so important to future growth because "many of our customers are using multiple public clouds," Benioff said.

To address that reality, Salesforce focused in the past on building an open system, with API accessibility and its AppExchange marketplace.

But "it has become more important for our customers to have and rely on an integration cloud," to deliver a single view to the customer, he said.

Artificial intelligence will be another important contributor to future gains in a market expected to reach $125 billion within a few years.

Salesforce's Einstein platform now delivers nearly 2 billion predictions a day—a number that's doubled in the last quarter.

"This is the most strategic technology for our customers," Benioff said of AI.

MuleSoft will augment Einstein, making more data available to the AI engine for analysis and insights.

The process of integrating MuleSoft's technology starts with consultations with customers on their integration strategies, Block said.

While Integration Cloud will be a rare Salesforce product that extends into private infrastructure, Salesforce isn't planning on using the platform as a springboard into a more hybrid posture.

"We're still 100 percent public cloud. I don’t see that changing," Benioff said.

At the same time, the nature of integration requires an architecture that runs partly on-premises, and Salesforce doesn't shy away from that.

"If customers need different architectures to unlock innovation, we'll go there," Block said.

Salesforce is committed to maintaining the neutrality of MuleSoft's platform, he said.

Benioff noted Salesforce, like its customers, has a multi-cloud strategy. It maintains its own proprietary data centers, while also partnering with mega-cloud providers Amazon Web Services, Google Cloud and IBM.

"Great alliances," Benioff said, "give us even more capability to deliver highly flexible execution environment for the customer."

Salesforce is also busy integrating CloudCraze into Commerce Cloud, ramping that e-commerce platform with B2B capabilities, he said.

Tue, 29 May 2018 13:38:00 -0500 text/html https://www.crn.com/news/cloud/300104276/salesforce-revenue-surges-as-growth-continues-for-crm-leader
Business-to-Business Middleware(B2B Integration) Market Insights and Forecast to 2030 | MuleSoft, Axway, Microsoft | 126 Pages Report
Seeburger

Get a Sample PDF of report – https://www.360researchreports.com/enquiry/request-sample/19948012

Short Description About Business-to-Business Middleware(B2B Integration) Market:

The Global Business-to-Business Middleware(B2B Integration) market is anticipated to rise at a considerable rate during the forecast period, between 2023 and 2030. In 2022, the market is growing at a steady rate and with the rising adoption of strategies by key players, the market is expected to rise over the projected horizon.

North America, especially The United States, will still play an important role which cannot be ignored. Any changes from United States might affect the development trend of Business-to-Business Middleware(B2B Integration). The market in North America is expected to grow considerably during the forecast period. The high adoption of advanced technology and the presence of large players in this region are likely to create ample growth opportunities for the market.

Europe also play important roles in global market, with a magnificent growth in CAGR During the Forecast period 2022-2030.

Business-to-Business Middleware(B2B Integration) Market size is projected to reach Multimillion USD by 2030, In comparison to 2022, at unexpected CAGR during 2022-2030.

Despite the presence of intense competition, due to the global recovery trend is clear, investors are still optimistic about this area, and it will still be more new investments entering the field in the future.

This report focuses on the Business-to-Business Middleware(B2B Integration) in global market, especially in North America, Europe and Asia-Pacific, South America, Middle East and Africa. This report categorizes the market based on manufacturers, regions, type and application.

The report focuses on the Business-to-Business Middleware(B2B Integration) market size, segment size (mainly covering product type, application, and geography), competitor landscape, recent status, and development trends. Furthermore, the report provides detailed cost analysis, supply chain.

Technological innovation and advancement will further optimize the performance of the product, making it more widely used in downstream applications. Moreover, Consumer behavior analysis and market dynamics (drivers, restraints, opportunities) provides crucial information for knowing the Business-to-Business Middleware(B2B Integration) market.

Get a Sample Copy of the Business-to-Business Middleware(B2B Integration) Report 2023

What are the factors driving the growth of the Business-to-Business Middleware(B2B Integration) Market?

Growing demand for below applications around the world has had a direct impact on the growth of the Business-to-Business Middleware(B2B Integration)

Hybrid Deployment

Which regions are leading the Business-to-Business Middleware(B2B Integration) Market?

  • North America (United States, Canada and Mexico)
  • Europe (Germany, UK, France, Italy, Russia and Turkey etc.)
  • Asia-Pacific (China, Japan, Korea, India, Australia, Indonesia, Thailand, Philippines, Malaysia and Vietnam)
  • South America (Brazil, Argentina, Columbia etc.)
  • Middle East and Africa (Saudi Arabia, UAE, Egypt, Nigeria and South Africa)

Inquire more and share questions if any before the purchase on this report at –https://www.360researchreports.com/enquiry/pre-order-enquiry/19948012

This Business-to-Business Middleware(B2B Integration) Market Research/Analysis Report Contains Answers to your following Questions

  • What are the global trends in the Business-to-Business Middleware(B2B Integration) market? Would the market witness an increase or decline in the demand in the coming years?
  • What is the estimated demand for different types of products in Business-to-Business Middleware(B2B Integration)? What are the upcoming industry applications and trends for Business-to-Business Middleware(B2B Integration) market?
  • What Are Projections of Global Business-to-Business Middleware(B2B Integration) Industry Considering Capacity, Production and Production Value? What Will Be the Estimation of Cost and Profit? What Will Be Market Share, Supply and Consumption? What about Import and Export?
  • Where will the strategic developments take the industry in the mid to long-term?
  • What are the factors contributing to the final price of Business-to-Business Middleware(B2B Integration)? What are the raw materials used for Business-to-Business Middleware(B2B Integration) manufacturing?
  • How big is the opportunity for the Business-to-Business Middleware(B2B Integration) market? How will the increasing adoption of Business-to-Business Middleware(B2B Integration) for mining impact the growth rate of the overall market?
  • How much is the global Business-to-Business Middleware(B2B Integration) market worth? What was the value of the market In 2020?
  • Who are the major players operating in the Business-to-Business Middleware(B2B Integration) market? Which companies are the front runners?
  • Which are the recent industry trends that can be implemented to generate additional revenue streams?
  • What Should Be Entry Strategies, Countermeasures to Economic Impact, and Marketing Channels for Business-to-Business Middleware(B2B Integration) Industry?

Business-to-Business Middleware(B2B Integration) Market – Covid-19 Impact and Recovery Analysis:

We were monitoring the direct impact of covid-19 in this market, further to the indirect impact from different industries. This document analyzes the effect of the pandemic on the Business-to-Business Middleware(B2B Integration) market from a international and nearby angle. The document outlines the marketplace size, marketplace traits, and market increase for Business-to-Business Middleware(B2B Integration) industry, categorised with the aid of using kind, utility, and patron sector. Further, it provides a complete evaluation of additives concerned in marketplace improvement in advance than and after the covid-19 pandemic. Report moreover done a pestel evaluation within the business enterprise to study key influencers and boundaries to entry.

Our studies analysts will assist you to get custom designed info to your report, which may be changed in phrases of a particular region, utility or any statistical info. In addition, we’re constantly inclined to conform with the study, which triangulated together along with your very own statistics to make the marketplace studies extra complete for your perspective.

Final Report will add the analysis of the impact of Russia-Ukraine War and COVID-19 on this Business-to-Business Middleware(B2B Integration) Industry.

TO KNOW HOW COVID-19 PANDEMIC AND RUSSIA UKRAINE WAR WILL IMPACT THIS MARKET – REQUEST SAMPLE

1 Market Overview
1.1 Product Overview and Scope of Business-to-Business Middleware(B2B Integration)
1.2 Classification of Business-to-Business Middleware(B2B Integration) by Type
1.2.1 Overview: Global Business-to-Business Middleware(B2B Integration) Market Size by Type: 2017 Versus 2021 Versus 2030
1.2.2 Global Business-to-Business Middleware(B2B Integration) Revenue Market Share by Type in 2021
1.3 Global Business-to-Business Middleware(B2B Integration) Market by Application
1.3.1 Overview: Global Business-to-Business Middleware(B2B Integration) Market Size by Application: 2017 Versus 2021 Versus 2030
1.4 Global Business-to-Business Middleware(B2B Integration) Market Size and Forecast
1.5 Global Business-to-Business Middleware(B2B Integration) Market Size and Forecast by Region
1.6 Market Drivers, Restraints and Trends
1.6.1 Business-to-Business Middleware(B2B Integration) Market Drivers
1.6.2 Business-to-Business Middleware(B2B Integration) Market Restraints
1.6.3 Business-to-Business Middleware(B2B Integration) Trends Analysis

2 Company Profiles
2.1 Company
2.1.1 Company Details
2.1.2 Company Major Business
2.1.3 Company Business-to-Business Middleware(B2B Integration) Product and Solutions
2.1.4 Company Business-to-Business Middleware(B2B Integration) Revenue, Gross Margin and Market Share (2019, 2020, 2021 and 2023)
2.1.5 Company Recent Developments and Future Plans

3 Market Competition, by Players
3.1 Global Business-to-Business Middleware(B2B Integration) Revenue and Share by Players (2019,2020,2021, and 2023)
3.2 Market Concentration Rate
3.2.1 Top3 Business-to-Business Middleware(B2B Integration) Players Market Share in 2021
3.2.2 Top 10 Business-to-Business Middleware(B2B Integration) Players Market Share in 2021
3.2.3 Market Competition Trend
3.3 Business-to-Business Middleware(B2B Integration) Players Head Office, Products and Services Provided
3.4 Business-to-Business Middleware(B2B Integration) Mergers and Acquisitions
3.5 Business-to-Business Middleware(B2B Integration) New Entrants and Expansion Plans

4 Market Size Segment by Type
4.1 Global Business-to-Business Middleware(B2B Integration) Revenue and Market Share by Type (2017-2023)
4.2 Global Business-to-Business Middleware(B2B Integration) Market Forecast by Type (2023-2030)

5 Market Size Segment by Application
5.1 Global Business-to-Business Middleware(B2B Integration) Revenue Market Share by Application (2017-2023)
5.2 Global Business-to-Business Middleware(B2B Integration) Market Forecast by Application (2023-2030)

6 Regions by Country, by Type, and by Application
6.1 Business-to-Business Middleware(B2B Integration) Revenue by Type (2017-2030)
6.2 Business-to-Business Middleware(B2B Integration) Revenue by Application (2017-2030)
6.3 Business-to-Business Middleware(B2B Integration) Market Size by Country
6.3.1 Business-to-Business Middleware(B2B Integration) Revenue by Country (2017-2030)
6.3.2 United States Business-to-Business Middleware(B2B Integration) Market Size and Forecast (2017-2030)
6.3.3 Canada Business-to-Business Middleware(B2B Integration) Market Size and Forecast (2017-2030)
6.3.4 Mexico Business-to-Business Middleware(B2B Integration) Market Size and Forecast (2017-2030)

7 Research Findings and Conclusion

8 Appendix
8.1 Methodology
8.2 Research Process and Data Source
8.3 Disclaimer

9 Research Methodology

10 Conclusion

Continued….

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Wed, 06 Dec 2023 10:00:00 -0600 en text/html https://www.digitaljournal.com/pr/news/prwirecenter/business-to-business-middleware-b2b-integration-market-insights-and-forecast-to-2030-mulesoft-axway-microsoft-126-pages-report
Application Integration Platforms Market Insights and Forecast to 2030 | Oracle Corporation, Dell, MuleSoft | 121 Pages Report
Microsoft Corporation

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Short Description About Application Integration Platforms Market:

The Global Application Integration Platforms market is anticipated to rise at a considerable rate during the forecast period, between 2023 and 2030. In 2022, the market is growing at a steady rate and with the rising adoption of strategies by key players, the market is expected to rise over the projected horizon.

North America, especially The United States, will still play an important role which cannot be ignored. Any changes from United States might affect the development trend of Application Integration Platforms. The market in North America is expected to grow considerably during the forecast period. The high adoption of advanced technology and the presence of large players in this region are likely to create ample growth opportunities for the market.

Europe also play important roles in global market, with a magnificent growth in CAGR During the Forecast period 2022-2030.

Application Integration Platforms Market size is projected to reach Multimillion USD by 2030, In comparison to 2022, at unexpected CAGR during 2022-2030.

Despite the presence of intense competition, due to the global recovery trend is clear, investors are still optimistic about this area, and it will still be more new investments entering the field in the future.

This report focuses on the Application Integration Platforms in global market, especially in North America, Europe and Asia-Pacific, South America, Middle East and Africa. This report categorizes the market based on manufacturers, regions, type and application.

The report focuses on the Application Integration Platforms market size, segment size (mainly covering product type, application, and geography), competitor landscape, recent status, and development trends. Furthermore, the report provides detailed cost analysis, supply chain.

Technological innovation and advancement will further optimize the performance of the product, making it more widely used in downstream applications. Moreover, Consumer behavior analysis and market dynamics (drivers, restraints, opportunities) provides crucial information for knowing the Application Integration Platforms market.

Get a Sample Copy of the Application Integration Platforms Report 2023

What are the factors driving the growth of the Application Integration Platforms Market?

Growing demand for below applications around the world has had a direct impact on the growth of the Application Integration Platforms

On-Premise

Which regions are leading the Application Integration Platforms Market?

  • North America (United States, Canada and Mexico)
  • Europe (Germany, UK, France, Italy, Russia and Turkey etc.)
  • Asia-Pacific (China, Japan, Korea, India, Australia, Indonesia, Thailand, Philippines, Malaysia and Vietnam)
  • South America (Brazil, Argentina, Columbia etc.)
  • Middle East and Africa (Saudi Arabia, UAE, Egypt, Nigeria and South Africa)

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This Application Integration Platforms Market Research/Analysis Report Contains Answers to your following Questions

  • What are the global trends in the Application Integration Platforms market? Would the market witness an increase or decline in the demand in the coming years?
  • What is the estimated demand for different types of products in Application Integration Platforms? What are the upcoming industry applications and trends for Application Integration Platforms market?
  • What Are Projections of Global Application Integration Platforms Industry Considering Capacity, Production and Production Value? What Will Be the Estimation of Cost and Profit? What Will Be Market Share, Supply and Consumption? What about Import and Export?
  • Where will the strategic developments take the industry in the mid to long-term?
  • What are the factors contributing to the final price of Application Integration Platforms? What are the raw materials used for Application Integration Platforms manufacturing?
  • How big is the opportunity for the Application Integration Platforms market? How will the increasing adoption of Application Integration Platforms for mining impact the growth rate of the overall market?
  • How much is the global Application Integration Platforms market worth? What was the value of the market In 2020?
  • Who are the major players operating in the Application Integration Platforms market? Which companies are the front runners?
  • Which are the recent industry trends that can be implemented to generate additional revenue streams?
  • What Should Be Entry Strategies, Countermeasures to Economic Impact, and Marketing Channels for Application Integration Platforms Industry?

Application Integration Platforms Market – Covid-19 Impact and Recovery Analysis:

We were monitoring the direct impact of covid-19 in this market, further to the indirect impact from different industries. This document analyzes the effect of the pandemic on the Application Integration Platforms market from a international and nearby angle. The document outlines the marketplace size, marketplace traits, and market increase for Application Integration Platforms industry, categorised with the aid of using kind, utility, and patron sector. Further, it provides a complete evaluation of additives concerned in marketplace improvement in advance than and after the covid-19 pandemic. Report moreover done a pestel evaluation within the business enterprise to study key influencers and boundaries to entry.

Our studies analysts will assist you to get custom designed info to your report, which may be changed in phrases of a particular region, utility or any statistical info. In addition, we’re constantly inclined to conform with the study, which triangulated together along with your very own statistics to make the marketplace studies extra complete for your perspective.

Final Report will add the analysis of the impact of Russia-Ukraine War and COVID-19 on this Application Integration Platforms Industry.

TO KNOW HOW COVID-19 PANDEMIC AND RUSSIA UKRAINE WAR WILL IMPACT THIS MARKET – REQUEST SAMPLE

1 Market Overview
1.1 Product Overview and Scope of Application Integration Platforms
1.2 Classification of Application Integration Platforms by Type
1.2.1 Overview: Global Application Integration Platforms Market Size by Type: 2017 Versus 2021 Versus 2030
1.2.2 Global Application Integration Platforms Revenue Market Share by Type in 2021
1.3 Global Application Integration Platforms Market by Application
1.3.1 Overview: Global Application Integration Platforms Market Size by Application: 2017 Versus 2021 Versus 2030
1.4 Global Application Integration Platforms Market Size and Forecast
1.5 Global Application Integration Platforms Market Size and Forecast by Region
1.6 Market Drivers, Restraints and Trends
1.6.1 Application Integration Platforms Market Drivers
1.6.2 Application Integration Platforms Market Restraints
1.6.3 Application Integration Platforms Trends Analysis

2 Company Profiles
2.1 Company
2.1.1 Company Details
2.1.2 Company Major Business
2.1.3 Company Application Integration Platforms Product and Solutions
2.1.4 Company Application Integration Platforms Revenue, Gross Margin and Market Share (2019, 2020, 2021 and 2023)
2.1.5 Company Recent Developments and Future Plans

3 Market Competition, by Players
3.1 Global Application Integration Platforms Revenue and Share by Players (2019,2020,2021, and 2023)
3.2 Market Concentration Rate
3.2.1 Top3 Application Integration Platforms Players Market Share in 2021
3.2.2 Top 10 Application Integration Platforms Players Market Share in 2021
3.2.3 Market Competition Trend
3.3 Application Integration Platforms Players Head Office, Products and Services Provided
3.4 Application Integration Platforms Mergers and Acquisitions
3.5 Application Integration Platforms New Entrants and Expansion Plans

4 Market Size Segment by Type
4.1 Global Application Integration Platforms Revenue and Market Share by Type (2017-2023)
4.2 Global Application Integration Platforms Market Forecast by Type (2023-2030)

5 Market Size Segment by Application
5.1 Global Application Integration Platforms Revenue Market Share by Application (2017-2023)
5.2 Global Application Integration Platforms Market Forecast by Application (2023-2030)

6 Regions by Country, by Type, and by Application
6.1 Application Integration Platforms Revenue by Type (2017-2030)
6.2 Application Integration Platforms Revenue by Application (2017-2030)
6.3 Application Integration Platforms Market Size by Country
6.3.1 Application Integration Platforms Revenue by Country (2017-2030)
6.3.2 United States Application Integration Platforms Market Size and Forecast (2017-2030)
6.3.3 Canada Application Integration Platforms Market Size and Forecast (2017-2030)
6.3.4 Mexico Application Integration Platforms Market Size and Forecast (2017-2030)

7 Research Findings and Conclusion

8 Appendix
8.1 Methodology
8.2 Research Process and Data Source
8.3 Disclaimer

9 Research Methodology

10 Conclusion

Continued….

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360 Research Reports is the credible source for gaining the market reports that will provide you with the lead your business needs. At 360 Research Reports, our objective is providing a platform for many top-notch market research firms worldwide to publish their research reports, as well as helping the decision makers in finding most suitable market research solutions under one roof. Our aim is to provide the best solution that matches the exact customer requirements. This drives us to provide you with custom or syndicated research reports.

Tue, 05 Dec 2023 10:00:00 -0600 en text/html https://www.digitaljournal.com/pr/news/prwirecenter/application-integration-platforms-market-insights-and-forecast-to-2030-oracle-corporation-dell-mulesoft-121-pages-report
Best CRM Software For Small Business Of January 2024

The return on investment from selecting the best CRM software can be massive. However, with so many CRM platforms on the market, the search can be overwhelming. To help combat decision fatigue, follow these simple steps to find the best CRM for your small business.

Step 1: Know Your Priorities and Goals

It is imperative to know why you want a CRM system in the first place. A CRM system can only help your business if you outline clear goals. To help clarify goals, begin with a business audit or gap analysis. Review yearly business performance reports to find areas that need improvement and identify key goals with timeline markers. Business goals could vary from expanding product lines to increasing revenue to strengthening customer service. After identifying business goals, consider how a CRM system could help you reach those goals.

Step 2: Find Your Team Members’ Needs

It is important to identify exactly who will be using the system and why. Sales and marketing departments are generally the main users of CRM software, however, every department should have input in the decision-making process for the system to work seamlessly. Ask each team member what their needs are and how they think the software system could help them perform their duties.

Step 3: Determine Important Features

The sheer volume of CRM features and tools is overwhelming. Take control of the situation by making a list of what you are looking for before you begin the search. For the sake of clarity, create a “must-have” features list to narrow down the options. Compile the information gathered from team members, along with your business goals and timeline markers to create the list. For example, if you are using the CRM for marketing purposes, then software with marketing automation, lead tracking and data analysis might be on your must-have list.

No matter what your focus is, make sure robust data security and customer support features are on the must-have list. Required software security features are two-factor authentication, encryption and advanced user permissions. Customer support features like live chat and phone support will be crucial when questions or concerns arise.

Step 4: Consider Different Types of CRM

While all CRM systems should help you develop better relationships with your customer base (hence the name), there is no one-size-fits-all system. CRM solutions can vary widely depending on the features they focus on. The three major types of CRM are:

  • Collaborative: The main focus of the collaborative CRM is providing a seamless customer experience through the various departments of a company. Collaborative CRMs are great for larger companies where the marketing team, sales team and customer support teams are disconnected and need help sharing real-time customer information.
  • Operational: The operational CRM streamlines the customer relations process. It is the best of the three for an all-around CRM solution. Operational CRMs typically leverage three automation features—sales force automation, marketing automation and service automation. The automatic responses help guide the customer’s journey from their first interaction on your website through the sales pipeline.
  • Analytical: Digital platforms make it easy to collect large quantities of customer data. That data is wasted, however, if you do not have a way to analyze it. Analytical CRM analyzes your customers’ data, providing a deep insight into their buying behavior and purchasing trends. Business owners can use these insights to craft smarter marketing campaigns and enhance customer service.

Step 5: Create a Budget

The cost of CRM software swings widely based on the number of users, features, subscription base and more. Prices range from $9 per user per month on the low end to $99 per user per month on the high end. Some companies do offer free versions of their software, however, the features, number of users and storage capacity are highly limited.

Another way to whittle down the plethora of companies is to set a budget at the onset to give you search parameters. This will give you a clear ceiling and eliminate options that live outside your predetermined budget.

Step 6: Research Top CRM Platforms

Once your search is narrowed down to a handful of options, start researching those options. There are a few key things you can use to determine if a platform will be a good fit for your needs.

  • User reviews: Take time to read the user reviews of the potential software on your list. Pay attention to what reviews list as the pros and cons. This will give you a more honest version of the software than the company’s website.
  • Word of mouth: Ask colleagues and other business owners about their CRM system. Are they happy with it? Why or why not? Would they recommend it for someone in your industry?
  • Trade publications: Trade magazines and websites are always a great source of information on all things pertaining to your industry. Spend a few hours researching the mentions of CRM software on any trade publications.
  • Independent software comparisons: There are many reputable websites unaffiliated with software companies that score, compare, and contrast products for consumers. Forbes Advisor is one such website, and we’ve published our guide to the best CRMs for small business for your reference.

Once you have narrowed down your search to one software provider, test it out to make sure it works for your company. Most CRM vendors offer a free full-feature trial of their product. Take advantage of this to ensure the system meets your business requirements and expectations.

Wed, 27 Dec 2023 23:32:00 -0600 Katherine Haan en-US text/html https://www.forbes.com/advisor/business/software/best-crm-small-business/
Mathematics & Statistics Course Listing Freshman Seminar in Mathematics (Formerly 92.102)

Description

This course is designed to orient undergraduate math majors to the university and to their chosen field. Students will learn about the mathematics program, the mathematics faculty and their research interests, careers in math-related areas, internship opportunities, and university resources.

Prerequisites

Pre-req: Math Majors Only.

Elementary Math for Teaching: Numbers and Operations (Formerly 92.107)

Description

The Number and Operations course for elementary and middle school teachers examines the three main categories in the Number and Operations strand of Principles and Standards of School Mathematics (NCTM) -- Understanding numbers, representations, relationships, and number systems; the meanings of operations and relationships among those operations; and reasonable estimation and fluent computation. No credit in Science or Engineering.

Prerequisites

Pre-req: BA-ED Majors only.

Elementary Math for Teaching: Algebra and Data Analysis

Description

This course seeks to support students in furthering their understanding of elementary mathematics concepts. The goal is for students to not only pass the MTEL for elementary mathematics, but to lay the groundwork for graduate work in elementary mathematics education. Specifically, we use an integrated approach to algebra that draws on real-world data to the extent possible. To this end, learners will gain experience in selecting and developing a number of data representations, organizing data, looking for patterns in the data and, finally, using words, symbolic notation, graphs and tables to generalize those patterns. No credit in Science or Engineering.

Prerequisites

Pre-req: MATH.1070 Elementary Math for Teaching: Numbers and Operations.

Quantitative Reasoning (Formerly 92.111)

Description

An introduction to the mathematics concepts and skills important in modern society, even for non-technical pursuits. The course will emphasize conceptual understanding as well as a facility in performing elementary computations. Topics to be examined will include types of reasoning, problem-solving methods, techniques of estimation, algebraic essentials, and the nature of probability and statistics. No credit in Science or Engineering.

SI for Quantitative Reasoning & Introduction to Statistics (Formerly 92.111SI/92.2830SI)

Description

This course provides supplemental instruction in mathematics to students whose Elementary Algebra Accuplacer exam scores indicate the need for such instruction. The credits in this course can not be used to satisfy the credits required for graduation, but may be used to satisfy the credits required for full time student status.

Prerequisites

Co-Req: MATH.1110 Quantitative Reasoning.

Fundamentals of Algebra (Formerly 90.111)

Description

Intended for students with little or no background in basic algebra or whose background is not current. Topics covered include: the real number system, factoring fractions, linear equations, functions, graphs, systems of equations, and the quadratic equation. Students will not receive credit for this course toward any degree program at the University of Massachusetts Lowell.

Precalculus Mathematics I (Formerly 92.120)

Description

Intended for students whose background in basic algebra is current. Topics covered include: linear equations, slope of a line, quadratic equations, functions, transformations, inequalities, curve sketching, and systems of equations. Note: Students who score 45 or lower on the ALEKS math assessment should consider enrolling in MATH.1115 first. Credit is given for only one of the following courses; MATH.1200, or MATH.1210.

Prerequisites

Pre-req: Current ALEKS Math Placement 26 or higher, or a B- or higher in MATH.1115 Fundamentals of Algebra.

Supplemental Instruction - Precalculus Mathematics I

Description

Taken simultaneously with MATH.1200, this zero-credit course offers students taking MATH.1200 supplemental instructions to foster a greater opportunity for successful completion of Precalculus Mathematics I.

Applied Precalculus

Description

Intended for students in online degree programs. The objective of this course is to provide students with problem-solving and computational techniques needed for further coursework and/or in their occupations. Topics covered include a comprehensive review of algebra, functions, and relations, system of linear equations in two variables, polynomial functions, rational functions, and inverse functions. Applications from business, IT, and biological sciences are included. ANTI-REQUISITES: Credit will only be granted for one of the following: MATH.1200/1225, MATH.1205 or MATH.1210.

Prerequisites

Anti-req: Credit will only be granted for one of the following; MATH.1200/1225, MATH.1210, or MATH.1205. Please Note: Academic petition required for all Anti-req exceptions.

Management Precalculus (Formerly 92.121)

Description

Review of algebra. The Real Numbers, inequalities and intervals on the number line, factoring, radical notation, properties of exponents, scientific notation, and operations on rational expressions. Function definition and graph of linear/nonlinear functions such as quadratic, cubic, absolute value, piecewise-defined, rational, and power function. Additional topics with functions included such as transformations of graphs and symmetry, composite functions, one-to-one and inverse functions. Solving linear and quadratic equations algebraically and graphically. Solving systems of equations in two variables algebraically and graphically. Modeling systems of equations in three variables and solving them analytically and with matrices using TI-84 implementation. Modeling with linear as well as quadratic and power functions with the aid of a graphing calculator and Excel spread sheets. Business applications are included.

Supplemental Instruction - Management Pre-Calculus (Formerly 92.121SI)

Description

Taken simultaneously with MATH.1210, this zero-credit course offers students taking MATH.1210 supplemental instructions to foster a greater opportunity for successful completion of Management Precalculus.

Prerequisites

Co-Req: MATH.1210 Management Pre-Calculus

Management Calculus (Formerly 92.122)

Description

Review of difference quotient, least squares modeling, limit of difference quotient, differential calculus: derivatives, differentials, higher-order derivatives, implicit differentiation, relative and absolute maxima and minima of functions, and applications of derivatives to business and economics. Integrals and applications to business. No credit in Science or Engineering.

Prerequisites

Pre-req: MATH.1200 Precalculus Math I, or MATH.1205 Applied Precalc, or MATH.1210 Mgmt Precalculus, or MATH.1225 Precalculus Math I, or MATH.1270 Prep for Calc, or current ALEKS score of 55 of higher.

Management Calculus Supplemental Instruction (Formerly 92.122SI)

Description

Taken simultaneously with MATH.1220, this 1-credit course offers students taking MATH.1220 supplemental instructions to foster a greater opportunity for successful completion of Management Calculus. The course credit cannot be used to satisfy the credits required for graduation, but may be used to satisfy credits required for full time student status.

Prerequisites

Co-Req: MATH.1220 Management Calculus.

Precalculus Mathematics I

Description

This course prepares students for future Calculus coursework. Topics covered include: linear equations, slope of a line, quadratic equations, functions, transformations, inequalities, curve sketching, and systems of equations. Credit is given for only one of the following courses; MATH.1205, MATH.1210, MATH.1225.

Prerequisites

Pre-req: Current ALEKS Math Placement 26 or higher, or a B- or higher in MATH.1115 Fundamentals of Algebra.

Precalculus Mathematics II (Formerly 92.123)

Description

A continuation of Math 1200/1225. Covers exponential and logarithmic functions, trigonometric and inverse trigonometric functions, and trigonometric identities.

Prerequisites

Current ALEKS Math Placement 55 or higher, or a B- or higher in MATH.1200/1225 Precalculus Mathematics I, or passed RHR course, NONC.PCLC1.

Calculus A (Formerly 92.125)

Description

Serves as a first course in calculus and provides a brief review of analytic geometry and trigonometric functions. The course progresses to the study of inverse functions, limits, continuity, derivatives, rules for differentiation of algebraic and transcendental functions, chain rule, implicit differentiation, linear approximation, differentials, and maximum and minimum values.

Prerequisites

Pre-req: ALEKS math placement 76-100, or MATH.1230 Precalculus II with a grade of 'C-' or higher, or MATH.1270 Preparation for Calculus with a grade of 'B-' or higher.

Preparation for Calculus (Formerly 92.127)

Description

A review of precalculus (algebra and trigonometry) together with development of problem solving skills. No credit in Science or Engineering.

Calculus IA (Formerly 92.128)

Description

Provides a review of pre-calculus algebra and trigonometry integrated with the first half of Calculus I: limits, continuity, derivatives, basic derivative formulas, chain rule, implicit differentiation. Students are expected to have taken pre-calculus and trigonometry in order to be successful in this course.

Calculus IA Supplemental Instruction (Formerly 92.128SI)

Description

Taken simultaneously with MATH.1280, this 1-credit course offers students retaking MATH.1280 supplemental instructions to foster a greater opportunity for successful completion of Calculus IA. The course credit cannot be used to satisfy the credits required for graduation, but may be used to satisfy credits required for full time student status.

Calculus IB (Formerly 92.129)

Description

Provides a review of pre-calculus, algebra and trigonometry integrated with the second half of Calculus I. Inverse trig functions and their derivative, logarithmic functions and their derivative, related rates, L'Hospital's Rule, optimization problems, curve sketching, linearization, Newton's Method, hyperbolic functions and their derivative, antiderivatives. Completion of this course is equivalent to MATH.131 0 Calculus I.

Prerequisites

Pre-req: MATH.1280 Calculus IA.

Calculus IB Supplemental Instruction (Formerly 92.129SI)

Description

Taken simultaneously with MATH.1290, this 1-credit course offers students retaking MATH.1290 supplemental instructions to foster a greater opportunity for successful completion of Calculus IA. The course credit cannot be used to satisfy the credits required for graduation, but may be used to satisfy credits required for full time student status.

Calculus I (Formerly 92.131)

Description

Serves as a first course in calculus. Functions, limits, continuity, derivatives, rules for differentiation of algebraic and transcendental function; chain rule, implicit differentiation, related rate problems, linearization, applied optimization, and curve sketching. Introduction to area and integration. Students are expected to have taken pre-calculus and trigonometry in order to be successful in this course.

Prerequisites

Pre-req: Current ALEKS math placement 76-100, or MATH.1230 Precalculus II with a grade of 'C-' or higher.

Calculus II (Formerly 92.132)

Description

Serves as a continuation of Calculus I. Integration and techniques of integration including the substitution method, integration by parts, trigonometric integrals, trigonometric substitution, integration of rational functions by partial fractions, numerical integration, and improper integrals. Volumes using cross-sections, the disk method, the washer method and the shell method. Arc length and surface area. Infinite series, power series, Maclaurin and Taylor series. Polar coordinates and areas and lengths in polar coordinates.

Prerequisites

Pre-Req: MATH 1290 Calculus IB, MATH 1310 Calculus I, or a grade of CR in NONC CALC1.

Calculus for the Life Sciences I (Formerly 92.138)

Description

This is a single variable calculus course with applications to the life sciences. Review of basic algebra, trigonometry, functions and graphs. Limits and derivatives, including differentiation rules, curve sketching and optimization problems. Implicit differentiation. Study of exponential and logarithmic functions motivated by growth, decay and logistic modes. Introduction to integration, techniques, applications and the fundamental theorem.

Prerequisites

Pre-req: Biology, and Pre-Med, and Pre-Dental Majors.

Calculus for the Life Sciences II (Formerly 92.139)

Description

This course is a continuation of MATH.1380. Review of integration and methods. Solving systems of linear equations. Use and application of matrices including inverses, determinants, eigenvalues and eigenvectors. Solving difference equations. Differential and integral calculus for functions of several variables, including maximum-minimum problems, partial derivatives. Method of least squares. First-order differential equations. Higher-order and systems of linear differential equations. Stability and trajectories using matrices. Population models and approximation techniques. Biology majors only.

Prerequisites

Pre-req: MATH.1380 Calculus for the Life Sciences I.

Honors Calculus I (Formerly 92.141)

Description

This course covers the same topics as MATH.1310 Calculus I, but in an enriched environment.

Honors Calculus II (Formerly 92.142)

Description

This course covers the same topics as MATH.1320 Calculus II, but in an enriched environment.

Prerequisites

Pre-req: MATH.1410 Honors Calculus I, or permission of Instructor.

Explorations in Mathematics (Formerly 92.151)

Description

This course is not so much about the mathematics of formulas, equations, rules and errors, as about mathematics that can be experienced: counted, drawn, seen, created; quite simply: played with. Officially, we will encounter concepts of combinatorics, geometry, number theory and Boolean logic. Unofficially, we will experiment with puzzles and patterns and develop as much mathematics from them as we can. Prerequisites: high school mathematics and willingness to explore. No credit in science or engineering. This course satisfies the Quantitative Reasoning requirement.

Functions and Modeling (Formerly 92.210)

Description

Engage in lab-based activities designed to strengthen their problem-solving skills and expand knowledge of the topics in secondary mathematics, focusing especially on topics from precalculus and the transition to calculus. Explore a variety of contexts that can be modeled using families of functions. Topics include conic sections, parametric equations and polar equations. Multiple representations, transformations, data analysis techniques and interconnections among geometry, probability and algebra. Quantitative approaches and building relationships between discrete and continuous reasoning will be recurrent themes.

Prerequisites

Co-Req: MATH 1320

Discrete Structures I (Formerly 92.321 and MATH.3210)

Description

Presents propositional logic, combinatorics, methods of proof, mathematical systems, algebra of sets, matrix algebra, relations and functions, recursion and generating functions, applications to computer science, and graph theory.

Prerequisites

Pre-req: MATH 1290 Calculus IB, or MATH 1310 Calculus I, or MATH 1380 Calc. for the Life Sciences I. or Permission of Instructor/Coordinator or Chair.

Discrete Math for IT

Description

Discrete Mathematics plays an important role in explaining key concepts in Information Technology and Computer Science, This course explores topics in logic, relationships between data, number theory and cryptography, recurrence and recursive programming, and how graphs relate to efficient algorithms. No credit for Math or CS majors.

Prerequisites

Pre-req: MATH1200 Precalculus Mathematics I, or MATH.1205 Applied Precalculus, or MATH.1210 Management Precalculus, or MATH.1220 Management Calculus, or MATH.1225 Precalculus Mathematics I, or MATH.1310 Calculus I.

Introduction to Linear Algebra (Formerly 92.221)

Description

Elementary set theory and solution sets of systems of linear equations. An introduction to proofs and the axiomatic methods through a study of the vector space axioms. Linear analytic geometry. Linear dependence and independence, subspaces, basis. Inner products. Matrix algebra. Applications of the above will also be discussed.

Prerequisites

Pre-req: MATH.1250 Calculus A, or MATH1290 Calculus IB, or MATH.1310 Calculus I.

Linear Algebra (Formerly 92.222)

Description

Linear transformations. Linear operators, change of basis, inner product and the diagonalization problem. Quadratic forms. Convex sets and geometric programming, input/output models for an economy, Markov chains, other applications of linear algebra.

Prerequisites

Pre-Req: MATH.2210 Linear Algebra I.

Elementary Math for Teaching: Geometry and Measurement (Formerly 92.227)

Description

This is a mathematics content course which covers the geometry/measurement strands of the Massachusetts Curriculum Frameworks in Mathematics at a collegiate level. The goal is not only to prepare students for the elementary mathematics MTEL, but to lay the groundwork for graduate work in elementary mathematics education. The course centers around "Big Ideas" such as Equivalence, Proportionality, Transformations; and Shapes & Solids. No credit in Science or Engineering.

Prerequisites

Pre-req: MATH.1080 Elementary Math for Teaching: Algebra and Data Analysis.

Calculus III (Formerly 92.231)

Description

Extends the concepts of Calculus I and II that deal with functions of a single variable to multi-variable functions, vector-valued functions and vector fields. Vectors and vector-valued functions, the dot and cross products, curves in space and the calculus of vector-valued functions. Multi-variable functions, limits, continuity, and differentiation. Partial derivatives, directional derivatives, the gradient, Lagrange multipliers and optimization. Double and triple integrals in Cartesian, polar and spherical coordinates. Vector fields and the fundamental theorems of vector calculus developed, line and surface integrals, Green's theorem, Stokes's theorem, and the divergence theorem.

Prerequisites

Pre-req: MATH.1320 Calculus II, or MATH.2250 Calculus C.

Math Lab I (Formerly 92.232)

Description

An introduction to mathematics related software. Topics from Calculus & Differential Equations will be explored using a symbolic package like Maple. the course will also introduce LaTeX, the standard for typesetting mathematics.

Prerequisites

Pre-Reqs: MATH 2310 Calculus III & MATH 2340 Differential Equations or MATH 2360 Eng Differential Equations.

Differential Equations (Formerly 92.234)

Description

Topics include methods of solutions for linear and non-linear first order differential equations, linear second order differential equations, higher order linear differential equations, systems of first-order differential equations. Laplace transforms. Numerical methods. Applications to physical systems.

Prerequisites

Pre-req: MATH.1320 Calculus II, or MATH.1260 Calculus B.

Engineering Differential Equations (Formerly 92.236)

Description

Introduction to differential equations with an emphasis on engineering applications. Topics include first-order equations, higher-order linear equations with constant coefficients, and systems of first-order equations. Applications of each topic are introduced and qualitative, analytical, and numerical solution techniques are studied. Laplace transform methods are discussed. The software package MATLAB is used throughout the course for both analytical and numerical calculations.

Prerequisites

Pre-Req: MATH 1320 Calculus II.

Honors Calculus III (Formerly 92.241)

Description

Covers the same topics as MATH.2310 Calculus II, but in an enriched environment.

Prerequisites

Pre-Req: MATH.1420 Honors Calculus II or permission of instructor

Honors Differential Equations (Formerly 92.244)

Description

Introduction to differential equations. Topics include first-order equations, second-order and higher-order linear equations, systems of first-order linear equations with constant coefficients, and Laplace transforms.

Prerequisites

Pre-Req: MATH 1320 Calculus II.

Introduction to Programming with MATLAB (Formerly 92.272)

Description

This course will introduce basic programming concepts using MATLAB as the programming environment. Topics include an introduction to MATLAB, array manipulation, graphics, script files, data input and output, relational and logical operators, conditional statements, loops, and iterative procedures. Additional topics will be discussed as time permits. Additional topics will be chosen from the following: finding roots of nonlinear equations, random number generation, Markov processes, simple statistics, interpolation, and the basics of Fourier analysis.

Prerequisites

Pre-Req: MATH 1310 Calculus I or MATH 1380 Calculus for Life Sciences, or Permission of Instructor/Coordinator or Chair.

Introduction to Statistics (Formerly 92.283)

Description

An introduction to descriptive statistics, graphing and data analysis, probability laws, discrete and continuous probability distributions, correlation and regression, inferential statistics. No credit in Sciences (except Biology and EEAS) or Engineering. Meets Core Curriculum Essential Learning Outcome for Quantitative Literacy (QL).

SI for Quantitative Reasoning & Introduction to Statistics (Formerly 92.111SI/92.2830SI)

Description

This course provides supplemental instruction in mathematics to students whose Elementary Algebra Accuplacer exam scores indicate the need for such instruction. The credits in this course can not be used to satisfy the credits required for graduation, but may be used to satisfy the credits required for full time student status.

Introduction to Applied Mathematics I (Formerly 92.301)

Description

Discusses vector analysis, Green's Theorem, Divergence Theorem, Stokes' Theorem, Fourier series, integrals, and partial differential equations of physics and engineering.

Prerequisites

Pre-Reqs: MATH 2310 Calculus III & MATH 2340 Differential Equations or MATH 2360 Eng Differential Equations.

Introduction to Applied Mathematics II (Formerly 92.302)

Description

Introduces students to matrix algebra, solution of systems of linear equations, eigenvalues and eigenvectors, solution of differential equations by matrix methods, series solution of differential equations, Bessel and Legendre functions, and Sturm-Liouville problems.

Prerequisites

Pre-Reqs: MATH 2310 Calculus III & MATH 2340 Differential Equations or MATH 2360 Eng Differential Equations.

Discrete Structures II (Formerly 92.322)

Description

Examines graph theory, trees, algebraic systems, Boolean algebra, groups, monoids, automata, machines, rings and fields, applications to coding theory, logic design, and sorting.

Prerequisites

Pre-req: MATH.2190 Discrete Structures I (Formerly MATH.3210), or MATH.3600 Mathematic Structure for Computer Engineers.

Introduction to Proofs

Description

This course will focus on reading and writing mathematics. Students will learn how to analyze and interpret mathematical statements and understand the reasoning behind these statements. They will also learn how to convey mathematical ideas and write proofs using precise language, correct logic, and other important elements.

Prerequisites

Pre-req: MATH.2190 Discrete Structures I.

Symbolic Logic (Formerly 92.330)

Description

An introduction to symbolic logic. Symbolic logic provides a framework of formal reasoning with applications in mathematics, cognitive science, computer science and philosophy. Topics include propositional logic, boolean algebras and rings, first-order logic and systems of deduction. Time permitting, we will touch on Tarski's notion of model, and the completeness and incompleteness theorems of Godel.

Prerequisites

Pre-req: MATH.1310 Calculus I, and MATH.2190 Discrete Structures I.

Mathematic Structure for Computer Engineers (Formerly 92.360)

Description

Basic concepts of data. Linear lists, strings, arrays, and orthogonal lists. Trees and graphs. Storage systems and structures. Storage allocation and collection. Multilinked structures. Symbol tables, searching and sorting (ordering) techniques. Not for math majors.

Prerequisites

Pre-Req: MATH 2310 Calculus III.

Numerical Analysis I (Formerly 92.362)

Description

Focuses on the theory and application of numerical techniques including error analysis. Also discusses solution of linear, nonlinear and differential equations, interpolation, numerical integration, and curve fitting. Computer solutions are emphasized.

Prerequisites

Pre-Reqs: MATH 2310 Calculus III & MATH 2340 Differential Equations or MATH 2360 Eng Differential Equations.

Intro to Data Analysis (Formerly 92.363)

Description

Computer analysis of data derived from research conducted in physical, social, and life sciences. Data preparation. Data modification, file manipulation, and descriptive statistics using SPSS. Programming ability is not required. No credit in Science or Engineering.

Senior Seminar I (Formerly 92.375)

Description

Student works with an advisor to develop a proposal for a senior project that will be carried out as part of MATH.4750 Senior Seminar II. Generally taken during the spring of the junior year. Prerequisite: Permission of instructor.

Mathematical Physics (Formerly 92.381)

Description

Intended for students having completed 2 full years of physics and math, this course is designed to develop competency in the applied mathematical skills required of junior and senior level physics majors. Covering topics involving infinite series, power series, complex numbers, and linear algebra along with vector and Fourier analysis, students will be trained with the rigor required to solve a wide range of applications in the physical sciences. Physics majors only.

Prerequisites

Pre-req: MATH.2310 Calculus III, and MATH.2340 Differential Equations, or MATH.2360 Engineering Differential Equations, and PHYS.1440 Physics II, or PHYS.1640 Honors Physics II.

Applied Statistics (Formerly 92.385)

Description

Introduction to experimental design, data analysis and formal statistical procedures from an applied point of view.

Prerequisites

Pre-Req: MATH 1320 Calculus II.

Probability and Statistics I (Formerly 92.386)

Description

Provides a one-semester course in probability and statistics with applications in the engineering sciences. Probability of events, discrete and continuous random variables cumulative distribution, moment generatory functions, chi-square distribution, density functions, distributions. Introduction to estimation, hypothesis testing, regression and correlation. No credit for both MATH.3860 and MATH.4070, Math majors should take MATH.4070.

Prerequisites

Pre-req: MATH.1320 Calculus II, or MATH.1260 Calculus B.

Mathematical Analysis (Formerly 92.403)

Description

The real numbers, completeness, sequences of real numbers, functions, continuity, uniform continuity, differentiability, the Riemann integral, series or real numbers, sequences and series of functions, uniform convergence, power series.

Prerequisites

Pre-req: MATH 1320 Calculus II and MATH 3210/2190 Discrete Structures I.

Probability and Mathematical Statistics I (Formerly 92.407)

Description

Addresses the topics of probability, random variables, discrete and continuous densities, expectation and variance, special distributions (binomial, Poisson, normal, etc.), moment generating functions, joint and conditional distributions, transformations of variables, sampling, and the central limit theorem.

Prerequisites

Pre-req: MATH 2310 Calculus III, or MATH 2260 Calculus D, and MATH 3210/2190 Discrete Structures I. NOTE: No credit for both MATH.3860 and MATH.4070.

Computers and Calculators in the Classroom (Formerly 92.410)

Description

This course explores the roles of mainframes, PC's and hand calculators in instruction, examine some of the available software and consider their use in a variety of areas of secondary mathematics, such as algebra, geometry (Euclidean and analytic), probability and statistics and introductory calculus. No credit in Science or Engineering.

Complex Variables I (Formerly 92.411/511)

Description

A first course in theory of analytic functions of one complex variable: complex differentiability and the Cauchy-Riemann equations, Cauchy Integral Theorem and Cauchy Integral Formula, Taylor and Laurent series, zeroes of analytic functions and uniqueness, the maximum modulus principle, isolated singularities and residues. Applications.

Prerequisites

Pre-Req: MATH 2310 Calculus III.

Number Theory (Formerly 92.413)

Description

Studies congruencies and the Chinese Remainder Theorem, Primitive roots, quadratic reciprocity, approximation properties of continued fractions, Pell's equation. Recent application of number theory such as primality testing, cryptology, and random number generation will also be covered.

Prerequisites

Pre-req: MATH.2210 Linear Algebra I, and MATH.2190 Discrete Structures I.

Mathematica

Description

A project -based course starting with an introduction to the basic features of Mathematica. A project that allows the student to focus on certain features in more detail is required and occupies the second half of the course.

Mathematical Problem Solving (Formerly 92.420/520)

Description

Focuses on: mathematical resources, ability to use heuristics, the student's beliefs about the use of mathematics to solve problems, and the student's self-confidence as a problem solver. Effective strategies for incorporating problem solving in the curriculum will also be discussed.

Prerequisites

Pre-req: MATH.2210 Linear Algebra I, and MATH.2190 Discrete Structures I.

Abstract Algebra I (Formerly 92.421/521)

Description

Elementary group theory, groups, cosets, normal subgroups, quotient groups, isomorphisms, homomorphisms, applications.

Prerequisites

Pre-req: MATH.2190 Discrete Structures I.

Topology (Formerly 92.426/526)

Description

Metric spaces, topological spaces, connectedness, compactness, the fundamental group, classifications of surfaces, Brouwer's fixed point theorem.

Prerequisites

Pre-req: MATH 4030 Mathematical Analysis or MATH 5010 Real Analysis

Geometry (Formerly 92.427/527)

Description

This course is designed for current and prospective geometry teachers. In addition to the development of Euclidean geometry, students will become familiar with geometry applications in Geometer's Sketchpad software, and to a lesser degree with other geometry software applications including Geogebra, and Cabri. There will be an introduction to spherical and hyperbolic geometry and triangle measurements will be computed for each. Calculus based derivations of area and volume for surfaces and solids will be generated and related to Euclidean geometry topics.

Prerequisites

Pre-Req: MATH 1320 Calculus II.

History of Mathematics (Formerly 92.435/535)

Description

Examines ancient numeral systems, Babylonian and Egyptian mathematics, Pythagorean mathematics, duplication, trisection, and quadrature, Euclid's elements and Greek mathematics after Euclid, Hindu and Arabian mathematics, European mathematics from 500 to 1600, origins of modern mathematics, analytic geometry, the history of calculus. Also covers the transition to the twentieth century and contemporary perspectives.

Partial Differential Equations (Formerly 92.445)

Description

Linear and quasilinear first order PDE. The method of characteristics. Conservation laws and propagation of shocks. Basic theory for three classical equations of mathematical physics (in all spatial dimensions): the wave equation, the heat/diffusion equation, the Laplace/Poisson equation. Initial value problems - solution formulas. Fundamental solutions. Green's functions. Eigenfunction expansion method for initial-boundary and boundary value problems.

Prerequisites

Pre-Req: MATH 2340 Differential Equations or MATH 2360 Eng Differential Equations.

Mathematics of Signal Processing (Formerly 92.448)

Description

Representation of Signals: Fourier analysis, fast Fourier transforms, orthogonal expansions. Transformation of signals: linear filters, modulation. Band-limited signals. Sampling. Uncertainty principle. Windows and extrapolation. Applications to medical imaging and array processing.

Prerequisites

Pre-Reqs: MATH 2310 Calculus III & MATH 2340 Differential Equations or MATH 2360 Eng Differential Equations.

Mathematical Modeling (Formerly 92.450)

Description

Applications of mathematics to real life problems. Topics include dimensional analysis, population dynamics wave and heat propagation, traffic flow.

Prerequisites

Pre-Req: MATH 2340 Differential Equations or MATH 2360 Eng Differential Equations.

Computational Mathematics (Last Term 2009 Spring)(Formerly 92.454)

Description

This course serves as an introduction to the theory and applications of numerical techniques. The course emphasizes an understanding of why numerical methods work and their limitations. Topics include Taylor series, interpolation, curve fitting, numerical differentiation and integration, numerical solution of systems of equations, and numerical solution of boundary value problems. Scientific programming languages are used to illustrate numerical computations.

Prerequisites

Pre-req: MATH.2310 Calulus III, and MATH.2340 Differential Equations, or MATH.2360 Differential Equations, and MATH.2210 Linear Algebra I.

Stat Program Using SAS (Formerly 92.466)

Description

An introduction to creation and manipulation of databases and statistical analysis using SAS software. SAS is widely used in the pharmaceutical industry, medical research and other areas. Cannot be used as a Math Elective.

Senior Seminar II (Formerly 92.475)

Description

Undergraduate seminar on advanced mathematical topics. Students are required to develop an understanding of an advanced subject beyond the scope of an existing course or synthesize two or more different areas form their curriculum. Students are required to participate in the seminar, present their results to the Department and write a substantial thesis in their topic area. Essential course elements include library research, original research, and both verbal and written exposition. The first semester is a graduation requirement for majors in mathematics.

Prerequisites

Pre-Req: MATH.3750 or MATH.4740 Senior Seminar I.

Senior Seminar III (Formerly 92.476)

Description

An optional second semester seminar to allow for continuation of study initiated in Senior Seminar I.

Prerequisites

Pre-Req: MATH.4750 Senior Seminar II.

Probability and Math Statistics II (Formerly 92.486)

Description

Point estimation, confidence intervals, hypothesis testing. Two-sample t-test. Correlation and linear regression. The bivariate normal distribution. Analysis of variance for one-and two-way designs. F tests. Nonparametric methods. Chi-squared tests for contingency tables. Generalized likelihood ratio. C.R. bound. Consistency.

Prerequisites

Pre-req: MATH.4070 Probability and Mathematical Statistics I.

Selected Topics (Formerly 92.490)

Description

Individual study for the student desiring more advanced or more specialized work. Course may not be substituted for scheduled offerings. Prerequisite: Permission of Department Chair.

Directed Study in Algebra (Formerly 92.491)

Description

Individual study for the student desiring more advanced or more specialized work in algebra. May be repeated for a total of six semester credits. Course may not be substituted for scheduled offerings.

Directed Study in Statistics (Formerly 92.494)

Description

Individual study for the student desiring more advanced or more specialized work in Statistics. May be repeated for a total of six semester credits. Course may not be substituted for scheduled offerings. Prerequisite: Permission of Department Chair.

Mathematics Practicum (Formerly 92.496)

Description

Unpaid internship in the Department of Mathematical Sciences. This allows students to receive up to 3 (free elective) credits while working on an approved project. Students who have a position and who wish to take advantage of this Practicum should see the department Internship Coordinator.

Mon, 23 Nov 2015 03:44:00 -0600 en text/html https://www.uml.edu/Catalog/Undergraduate/Sciences/Departments/Mathematical-Sciences/Course-Listing.aspx
MATH.1380 Calculus for the Life Sciences I (Formerly 92.138)
Id: 038099 Credits Min: 4 Credits Max: 4

Description

This is a single variable calculus course with applications to the life sciences. Review of basic algebra, trigonometry, functions and graphs. Limits and derivatives, including differentiation rules, curve sketching and optimization problems. Implicit differentiation. Study of exponential and logarithmic functions motivated by growth, decay and logistic modes. Introduction to integration, techniques, applications and the fundamental theorem.

Prerequisites

Biology, and Pre-Med, and Pre-Dental Majors.

View Current Offerings
Sun, 20 Mar 2016 19:22:00 -0500 en text/html https://www.uml.edu/catalog/courses/MATH/1380




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