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Friday, 31 July 2020

Answer : IT Tools and Business Systems (January 2019)


Q. 5 (A) : Explain about Multitasking operating system in detail.

Answer :


Multitasking, in an operating system, is allowing a user to perform more than one computer task (such as the operation of an application program) at a time. The operating system is able to keep track of where you are in these tasks and go from one to the other without losing information. Microsoft Windows 2000, IBM's OS/390, and Linux are examples of operating systems that can do multitasking (almost all of today's operating systems can). When you open your Web browser and then open Word at the same time, you are causing the operating system to do multitasking.

Being able to do multitasking doesn't mean that an unlimited number of tasks can be juggled at the same time. Each task consumes system storage and other resources. As more tasks are started, the system may slow down or begin to run out of shared storage.

It is easy to confuse multitasking with Multithreading, a somewhat different idea.


Q. 5 (B) : Convert (B5A)16 to Octal.

Answer :

Result:

5532



Q. 5 (C ) : Explain about the hardware components of general-purpose computers?

Answer :


Basic computer consists of an arithmetic logic unit (ALU), a control unit, main memory and your input-output devices. However, these are not commonly used terms at the computer shop, and will not get you very far if you are trying to buy a general purpose computer. Besides the monitor, keyboard and mouse, which are effectively output devices, you will require four basic hardware components in the case of your PC: the motherboard, central processing unit, hard disk drive and power supply.

Motherboard with RAM

Choosing the right motherboard is very important, as all of the other components slot into this piece of hardware, so you have to ensure that everything is compatible with each other. For a general purpose computer, you won't need a top-of-the-line motherboard, but if you want to avoid upgrading too soon again it is best to go for a model that can accommodate all the latest technology. This will prevent you from having to replace the motherboard if, for instance, you decide to upgrade the CPU. For a general purpose computer, an integrated motherboard that has the graphics card, sound card and network card on-board should be the cheapest option, so you won't need to buy those cards separately. Also be sure to ask for compatible RAM when you purchase a motherboard. The amount of RAM influences your system performance, so what you choose will depend on how fast you require the computer to be.

Central Processing Unit (CPU)

As it is the "brain" of your PC, the CPU is one of its most important components. The processor determines what your computer is capable of and how fast it processes tasks. Modern-day CPUs all have multiple cores, which means it can process different tasks simultaneously. The more cores, the faster the CPU will be -- but it will also be more expensive. For a general purpose computer, a dual core should be sufficient unless you are planning to do very intensive video and photo editing.



Storage

Every computer needs a storage component, and for a general purpose computer a hard disk drive should be sufficient. Other options include a solid state drive or a hybrid between a SSD and a regular hard disk drive. These options are more expensive than a normal hard drive, although both are a bit faster at finding data as they make use of flash memory. As of 2013, hard disk drives can store capacities of up to four terabytes, but a general purpose computer doesn't need that much unless you work with large video and image files that take up a lot of space.

 

Power Supply

The power supply is the device that converts power from your outlet to the other components, so each component gets what it needs. Each piece of hardware in the computer has other power requirements, and the power supply has to provide that. The more components in your computer, the more power they need to draw, and the higher the required capacity of your power supply. For a general purpose computer, a 350-Watt power supply should be sufficient. However, don't skimp on your power supply and buy the cheapest out there unless your area has a very stable power connection. High-end power supplies have extra built-in safety features to protect the system from power surges.

Q. 6 (A) : Write notes on features of PowerPoint.

Answer :

PowerPoint is a highly innovative and versatile program that can ensure you a successful communication whether you’re presenting in front of potential investors, a lecture theatre or simply in front of your colleagues. Below are five features you should be using – if you aren't already. Learn everything about these tips: they will improve your presentation skills and allow you to communicate your message successfully.

Adding Smart Art

Don’t confuse SmartArt with the similarly named WordArt. Where WordArt just allows you to display text using a wide variety of different formats and effects, SmartArt is a comprehensive and flexible business diagram tool that greatly improves upon the ‘Diagram Gallery’ feature found in previous versions of Office.

Click the insert SmartChart Graphic to choose from a selection of options.

SmartArt can be used to create professional diagrams that include pictures and text or combinations of the two. An obvious use of SmartArt would be to create an organisation chart but it can be used for many different kinds of diagrams and even to provide some variety to slides using text bullet points.

Inserting Shapes

If you need to include some sort of diagram in your presentation, then the quickest and easiest way is probably to use SmartArt. However, it is important to be able to include shapes independently of SmartArt and worth being familiar with the various Drawing Tool format options.

Not only will they be useful if you do need to manually draw a diagram (and SmartArt doesn’t suit all diagrams), but they can also be applied to objects on a slide that you might not immediately think of as shapes. For example the box that contains your slide title or your content. This can be anything from text to a video, or even the individual shapes in a SmartArt diagram.

As you can see, the gallery of available shapes is very extensive. Once you have selected your chosen shape, you can just click in your slide to insert a default version of the shape or, to set a particular size and position, click and drag with the mouse to create the shape and size you want.

Inserting an Image

Here are two content type icons which appear in new content Placeholders for inserting pictures. You can Insert Picture from File or Insert Clip Art. Alternatively, the Illustrations group of the Insert ribbon tab includes the same two tools. In addition, PowerPoint 2010 has a new ‘Screenshot’ option that allows you to capture an entire window or part of a window for inclusion on a slide. You can also copy any image and just paste it directly to a slide.

Insert Picture from File allows you to browse to an image file saved somewhere on your system whereas Clip Art is held in an indexed gallery of different media types. Clip Art is not limited to pictures: ‘The Results should be:’ box lets you choose between: ‘All media file types’ and one or more of the following different types:

  • ·    Illustrations
  • ·         Photographs
  • ·         Video
  • ·         Audio

Once you have found the image you want to use, click on it to insert it into the current slide. You can now re-size and move the image accordingly with further editting options available when you right click the desired image.


Slide Transitions

Properly used, slide transitions can be make your presentations clearer and more interesting and, where appropriate, more fun. Badly used, the effect of slide transitions can be closer to irritating or even nauseating. Simple animation effects are often used to add interest to bullet point text. Much more extreme animation effects are available but, in most cases, should be used sparingly if at all.

Two main kinds of animation are available in a PowerPoint presentation: the transition from one slide to the next and the animation of images/text on a specific slide.

In PowerPoint 2010 & 2013 there is also a separate Transitions ribbon tab that includes a gallery of different transition effects. These can be applied to selected slides or all slides. If you want to apply different transition effects to different groups of slides, then you might want to choose ‘Slide Sorter’ view from the Presentation Views group of the View ribbon.

Q.  6 (B) : Explain common characteristic of the computer.

Answer :

The characteristics of computers that have made them so powerful and universally useful are speed, accuracy, diligence, versatility and storage capacity. Let us discuss them briefly.

Speed

Computers work at an incredible speed. A powerful computer is capable of performing about 3-4 million simple instructions per second.

Accuracy

In addition to being fast, computers are also accurate. Errors that may occur can almost always be attributed to human error (inaccurate data, poorly designed system or faulty instructions/programs written by the programmer)

Diligence

Unlike human beings, computers are highly consistent. They do not suffer from human traits of boredom and tiredness resulting in lack of concentration. Computers, therefore, are better than human beings in performing voluminous and repetitive jobs.

Versatility

Computers are versatile machines and are capable of performing any task as long as it can be broken down into a series of logical steps. The presence of computers can be seen in almost every sphere – Railway/Air reservation, Banks, Hotels, Weather forecasting and many more.

Storage Capacity

Today’s computers can store large volumes of data. A piece of information once recorded (or stored) in the computer, can never be forgotten and can be retrieved almost instantaneously.

Q. 6 (C ) : Explain in detail about system

Answer :

An information system (IS) is a formal, sociotechnical, organizational system designed to collect, process, store, and distribute information.[1] In a sociotechnical perspective, information systems are composed by four components: task, people, structure (or roles), and technology.

A computer information system is a system composed of people and computers that processes or interprets information. The term is also sometimes used to simply refer to a computer system with software installed.

Information Systems is an academic study of systems with a specific reference to information and the complementary networks of hardware and software that people and organizations use to collect, filter, process, create and also distribute data. An emphasis is placed on an information system having a definitive boundary, users, processors, storage, inputs, outputs and the aforementioned communication networks.

Any specific information system aims to support operations, management and decision-making.[8][9] An information system is the information and communication technology (ICT) that an organization uses, and also the way in which people interact with this technology in support of business processes.

Some authors make a clear distinction between information systems, computer systems, and business processes. Information systems typically include an ICT component but are not purely concerned with ICT, focusing instead on the end use of information technology. Information systems are also different from business processes. Information systems help to control the performance of business processes.

Alter argues for advantages of viewing an information system as a special type of work system. A work system is a system in which humans or machines perform processes and activities using resources to produce specific products or services for customers. An information system is a work system whose activities are devoted to capturing, transmitting, storing, retrieving, manipulating and displaying information.

 

As such, information systems inter-relate with data systems on the one hand and activity systems on the other. An information system is a form of communication system in which data represent and are processed as a form of social memory. An information system can also be considered a semi-formal language which supports human decision making and action.




Q. 7 (A) : Explain the binary number system.

Answer :

Binary number system, in mathematics, positional numeral system employing 2 as the base and so requiring only two different symbols for its digits, 0 and 1, instead of the usual 10 different symbols needed in the decimal system. The numbers from 0 to 10 are thus in binary 0, 1, 10, 11, 100, 101, 110, 111, 1000, 1001, and 1010. The importance of the binary system to information theory and computer technology derives mainly from the compact and reliable manner in which 0s and 1s can be represented in electromechanical devices with two states—such as “on-off,” “open-closed,” or “go–no go.” (See numerals and numeral systems: The binary system.)

How do we Count using Binary?

It is just like counting in decimal except we reach 10 much sooner.

Binary

 

0

We start at 0

1

Then 1

???

But then there is no symbol for 2 ... what do we do?


Well how do we count in Decimal?

 

 

0

 Start at 0

 

...

 Count 1,2,3,4,5,6,7,8, and then...

 

9

 This is the last digit in Decimal

 

10

So we start back at 0 again, but add 1 on the left


 

Binary

 

 

0

Start at 0

1

Then 1

••

10

Now start back at 0 again, but add 1 on the left

•••

11

1 more

••••

???

But NOW what ... ?


What happens in Decimal?

 

99

 

When we run out of digits, we ...

 

100

 

... start back at 0 again, but add 1 on the left


 

Binary

 

 

0

Start at 0

1

Then 1

••

10

Start back at 0 again, but add 1 on the left

•••

11

 

••••

100

start back at 0 again, and add one to the number on the left...
... but that number is already at 1 so it also goes back to 0 ...
... and 1 is added to the next position on the left

•••••

101

 

••••••

110

 

•••••••

111

 

••••••••

1000

Start back at 0 again (for all 3 digits),
add 1 on the left

•••••••••

1001

And so on!


Q. 7 (B) : Compare Compiler, Interpreter and Assembler?

Answer :

What is Compiler

A compiler is a language translator that converts high level programs into machine understandable machine codes. In this process, the compiler converts the whole program to machine code at a time. If there are any syntactic or semantic error, the compiler will indicate them. It checks the whole program and displays all errors. It is not possible to execute the program without fixing those errors. Programming languages such as C, C++ uses a compiler for language conversion. The execution time is lower in these languages. Therefore, they are considered fast languages.

What is Interpreter

An interpreter is also a language translator that converts high level programs into machine codes. Unlike compilers, interpreters convert the source code to machine code line by line. As it checks line by line, the scanning time is lower. But the overall execution time is higher.

Interpreter displays an error at a time. The programmer should fix that error to interpret the next line. Programming languages such as Python, Ruby, PHP, Perl are some examples of interpreter-based languages.

What is Assembler

In addition to high level languages and machine language, there is another language called the assembly language. Assembly language is in between the high level languages and machine language. It is closer to machine language than high level languages. It is also called low level language. This language is not easily readable and understandable by the programmer like a high level programming language. The assembler works as the translator in converting the assembly language program to machine code.

Difference between Compiler and Interpreter –

COMPILER

INTERPRETER

A compiler is a program which coverts the entire source code of a programming language into executable machine code for a CPU.

interpreter takes a source program and runs it line by line, translating each line as it comes to it.

Compiler takes large amount of time to analyze the entire source code but the overall execution time of the program is comparatively faster.

Interpreter takes less amount of time to analyze the source code but the overall execution time of the program is slower.

Compiler generates the error message only after scanning the whole program, so debugging is comparatively hard as the error can be present any where in the program.

Its Debugging is easier as it continues translating the program until the error is met

Generates intermediate object code.

No intermediate object code is generated.

Examples: C, C++, Java

Examples: Python, Perl


Q. 7 (C ) : What is Linux and what are its features ?

Answer :

Linux is fast, free and easy to use, power laptops and servers around the world. Linux has many more features to amaze its users such as:


  • Live CD/USB: Almost all Linux distributions have Live CD/USB feature by which user can run/try the OS even without installing it on the system
  • Graphical user interface (X Window System): People think that Linux is a command line OS, somewhere its true also but not necessarily, Linux have packages which can be installed to make the whole OS graphics based as Windows.
  • Support’s most national or customized keyboards: Linux is used worldwide and hence available in multiple languages, and supports most of their custom national keyboards.

·         Application Support: Linux has its own software repository from where users can download and install thousands of applications just by issuing a command in Linux Terminal or Shell. Linux can also run Windows applications if needed.


Q. 8 (A) : Explain about Mail-Merge facility in MS-Word with proper steps.

Answer :

Mail merging means to plug data from an address table into form letters, e-mail messages, envelopes, address labels, or a directory (a list or catalog, for example). To start a mail merge, choose Tools | Letters and Mailings | Mail Merge Wizard to open the Mail Merge task pane.

Step 1:
Select a Document Type The first step is to select what Word calls a “document type” in the Mail Merge task pane, what kind of mail-merge you want to undertake: form letters, e-mail messages, envelopes for mass-mailings, labels for mass-mailings, or a directory (a list or catalog). Choose an option button and click Next at the bottom of the task pane to go to

step 2.
Step 2: Select a Starting Document What Word calls the “starting document” is the document in which the merging takes place. In other words, the address or other data you retrieve will land in the document you choose or create now. You can create a new start document or use an existing one. In the case of labels and envelopes, you tell Word what size labels or envelopes you intend to print on. In the case of form letters, e-mail messages, and directories, you supply the text either by making use of a document you’ve written already or writing a new document.

 

Step 3: 

Q. 8 (A) : Explain about Mail-Merge facility in MS-Word with proper steps.

Answer :

Mail merging means to plug data from an address table into form letters, e-mail messages, envelopes, address labels, or a directory (a list or catalog, for example). To start a mail merge, choose Tools | Letters and Mailings | Mail Merge Wizard to open the Mail Merge task pane.

Step 1:
Select a Document Type The first step is to select what Word calls a “document type” in the Mail Merge task pane, what kind of mail-merge you want to undertake: form letters, e-mail messages, envelopes for mass-mailings, labels for mass-mailings, or a directory (a list or catalog). Choose an option button and click Next at the bottom of the task pane to go to

step 2.
Step 2: Select a Starting Document What Word calls the “starting document” is the document in which the merging takes place. In other words, the address or other data you retrieve will land in the document you choose or create now. You can create a new start document or use an existing one. In the case of labels and envelopes, you tell Word what size labels or envelopes you intend to print on. In the case of form letters, e-mail messages, and directories, you supply the text either by making use of a document you’ve written already or writing a new document. 

Step 3:
Select Recipients In step 3, you tell Word where to get the data that you will merge into the starting document you created or supplied in step 2. You can retrieve the data from a table in a Word document, an Access database table or query, or the address book or contact list where you store your addresses. You can also create a new list for the data if you haven’t entered the data in a file yet.

Step 4:
Write/Arrange Your Document In step 4, you insert the merge fields, the parts of the starting document that differ from recipient to recipient. By inserting merge fields, you tell Word where to plug information from the data source into the starting document. You also tell Word which data to take from the data source. Word offers special tools for entering an address block – the recipient’s address, including his or her name, company, title, street address, city, and zip code.

Step 5:
Preview Your Document In step 5, you get a chance to see what your form letters, e-mail messages, envelopes, labels, or directory will look like after they are printed or sent. In this step, you find out what the document will look like when real data is plugged into it. If something is amiss in the document, you can click the Previous link to return to step 4, the Write/Arrange your document task pane, and make changes there.

Step 6:
Complete the Merge Step 6 is where you complete the merge by either printing a new document or saving the new file and printing it later. By saving the merged data in a new file, you can edit the file before printing it. In the case of e-mail messages, you click the Electronic Mail link to tell Word to send the e-mail messages.

 Select Recipients In step 3, you tell Word where to get the data that you will merge into the starting document you created or supplied in step 2. You can retrieve the data from a table in a Word document, an Access database table or query, or the address book or contact list where you store your addresses. You can also create a new list for the data if you haven’t entered the data in a file yet.

Step 4:
Write/Arrange Your Document In step 4, you insert the merge fields, the parts of the starting document that differ from recipient to recipient. By inserting merge fields, you tell Word where to plug information from the data source into the starting document. You also tell Word which data to take from the data source. Word offers special tools for entering an address block – the recipient’s address, including his or her name, company, title, street address, city, and zip code.

Step 5:
Preview Your Document In step 5, you get a chance to see what your form letters, e-mail messages, envelopes, labels, or directory will look like after they are printed or sent. In this step, you find out what the document will look like when real data is plugged into it. If something is amiss in the document, you can click the Previous link to return to step 4, the Write/Arrange your document task pane, and make changes there.

Step 6:
Complete the Merge Step 6 is where you complete the merge by either printing a new document or saving the new file and printing it later. By saving the merged data in a new file, you can edit the file before printing it. In the case of e-mail messages, you click the Electronic Mail link to tell Word to send the e-mail messages.

 

Q. 8 (B) : What is a Relational Database ? What is a key ? What are different keys in database ?

Answer :

Relational Database

A relational database is a type of database that stores and provides access to data points that are related to one another. Relational databases are based on the relational model, an intuitive, straightforward way of representing data in tables. In a relational database, each row in the table is a record with a unique ID called the key. The columns of the table hold attributes of the data, and each record usually has a value for each attribute, making it easy to establish the relationships among data points.

Key
eys are very important part of Relational database model. They are used to establish and identify relationships between tables and also to uniquely identify any record or row of data inside a table.A Key can be a single attribute or a group of attributes, where the combination may act as a key.The video below covers all about the different keys in an RDBMS.

Types of Keys

  • Super Key -  A super key is a group of single or multiple keys which identifies rows in a table.
  • Primary Key -  is a column or group of columns in a table that uniquely identify every row in that table.
  • Candidate Key -  is a set of attributes that uniquely identify tuples in a table. Candidate Key is a super key with no repeated attributes.
  • Alternate Key -  is a column or group of columns in a table that uniquely identify every row in that table.
  • Foreign Key -  is a column that creates a relationship between two tables. The purpose of Foreign keys is to maintain data integrity and allow navigation between two different instances of an entity.
  • Compound Key -  has two or more attributes that allow you to uniquely recognize a specific record. It is possible that each column may not be unique by itself within the database.
  • Composite Key -  An artificial key which aims to uniquely identify each record is called a surrogate key. These kind of key are unique because they are created when you don't have any natural primary key.

Q. 8 (C ) : Explain about significance of information technology in education.

Answer :

There are countless reasons why technology is a key aspect of learning in the schools. Whether we like it or not, technology is everywhere; and in order for our students to survive in post-secondary education and the business world, they must know technology.

To narrow it down, we came up with 10 reasons for the importance of technology in education:

 

Students demand it.

Students are engaging with technology constantly outside of the classroom. Kids like to be interactive, and learning through technology has now become a part of their lifestyle.

New teachers are demanding it.

The technology movement has been implemented in post-secondary education as well as other professional jobs. For new teachers, technology is considered a necessity for the learning environment.

Kids are the digital native.

Kids know technology better than most adults. It has become the easiest way they learn, because it is such an integral part of their life. Engaging with technology in the classroom has not only helped them learn better, but they also acquire multi-tasking skills. At this day in age, they hardly know how to learn without it. This knowledge is important, because they would be way behind in the real world without it.

Kids can learn at their own pace.

We know from years of experience that kids learn at their own pace, but sometimes the traditional classroom makes it difficult to do so. With the integration of technology in education, children have the ability to slow down and go back over lessons and concepts, and more advanced kids can go ahead. It also frees up the teacher to help kids on a more one-on-one level.

With technology, there are no limitations.

Having access to other information outside of the book gives students many different ways to learn a concept. Teachers can come up with creative ways to teach their students that keeps them engaged. Technology has changed the learning environment so that learning is more hands-on. Schools throughout the nation are diverse in income, and often kids don’t always get the resources they need. The implementation of technology in schools helps close that gap.

Technology has the ability to enhance relationships between teachers and students.

When teachers effectively integrate technology into subject areas, teachers grow into roles of adviser, content expert, and coach. Technology helps make teaching and learning more meaningful and fun. Students are also able to collaborate with their own classmates through technological applications.

Testing has gone online

One protocol that schools don’t have control over, but must adapt to, is online testing. Testing online is the way of the future, but it has a lot of advantages. Assessing students’ performance can be done instantly with technology. Beyond seeing test scores in real-time, teachers can better track and understand students’ grasp of the subject.

Multitude of resources

Computers, tablets, and other forms of technology bring multiple resources for the teacher that’s not in the book. They not only keep students engaged with exciting new features and apps, but also have other ways to teach students material. Every kid learns differently, and technology helps with this gap as well.

Technology keeps kids engaged.

The students of this generation are considered technological learners. They learn best being more interactive, and technology is what helps them do that. Children often struggle to stay on task or interested, and with resources to help the teacher, they can better stay focused and learn faster.

Technology is necessary to succeed outside of primary and secondary education

Whether we like it or not, technology is an essential concept to learn. Because it changes so quickly, children are better off learning about it sooner. It is a primary part of every industry, and there is no way around it. These days, technology means more than just learning basic computing skills. Technology has made itself part of every aspect of our lives today, and the students who understand it are the ones who succeed in the business world.

Q. 9 Differentiate between any three of the following:

(a) Open Source Software and Proprietary Software

(b) RAM and ROM

(c) SPAM and VIRUS

(d) TEMPLATE and WIZARD

Answer 9 . (a) : 

Points

Open Source

Proprietary Software

Definition

Open Source is when the source code is available for anyone to use. They can change and share it. Everyone has access to open-source software and it is free to download. This means anyone can use the software, modify it and then share it among the community.

Proprietary Software, aka “Closed Source” is different to open source. Instead of being free for anyone to use, proprietary software is owned by an individual or company. The source code is usually kept secret. This means only people with access to the code, can modify and change it. Proprietary software is also, but not always, paid software.

 

Examples

·         WordPress– A Content Management System (CMS) used for blogs and creating your websites.

·         GitHub – A hosting service that has many of its features.

·         Mozilla Firefox – A web browser and one of the most popular browsers available.

·         Linux – One of the most commonly used operating systems, Linux is found on desktops, mobile phones and a large number of servers.

·         Android – An operating system that controls the majority of the world’s smartphones, it is also based on Linux.

 

Microsoft Office – Productivity software including a text editor, powerpoint creator and more.

·         Adobe Photoshop – An image creation and manipulation program used for digital artwork.

·         Windows – The most widely used operating system in the world.

·         Internet Security Programs – Designed to keep your computer safe from online threats.

·         iTunes – A digital media management program to organise songs, videos, apps and more.

·         Shopify – An eCommerce website where you can build your online shop.

·         Wix – A website creator

·         Big Commerce – Like Shopify, it is an online store builder.

Advantages

You own the website!

If a company went into liquidation while using closed source software, everything would disappear. If at some point, the CMS platform you were using stopped trading, you run the risk of losing your website.

 

No Development Limitations!

When using open-source software, the opportunity to build whatever you like is there, as long as you have complete flexibility with the code. Platforms such as WordPress have thousands of developers building new fantastic plugins and extensions all the time!

It’s Free!

One of the biggest advantages of Open Source Software is how it is available for anyone to access. Aside from hosting costs, it is free, meaning smaller businesses or individuals don’t have to splash out the cash that they don’t necessarily have at the beginning, allowing you to scale up your business and bring in more clients.

The Community!

Open-Source software is free. This means a lot of people use it, which then creates a community. This community is very supportive where people can contribute to improving your code. You can have new ideas constantly flowing and improving your product. People can improve already existing code, finding mistakes and correcting them for you – which is a massive advantage! It also means developers who want to work on or add features to their favourite programs have the opportunity to do so.

Specific Features

Proprietary software is made by an individual or company for specific use by its users. This means that the main focus of all development to the software will be based on creating, maintaining and improving the features needed for the best use of the program.  Open-source projects are not managed with the same end goal in mind.

Refinement

Release cycles for proprietary software are longer than open-source cycles. However, dedicated teams of software developers who work hard to make the program refined in terms of speed, stability and the number of features.

Better Support

The customer service you receive when you have a problem with the software should be extremely helpful to you. With a team dedicated to helping you with issues, you’ve encountered. Although they do only have a basic knowledge compared to the developers who created the software, they should be able to help you with what you need.

Disadvantages

Refinement

Although proprietary software release cycles are longer, by the time a new version is released, it has been years in the making. This means it is more refined, leading to a better product overall.

Bugs and Issues

Companies and developers who run and manage open source systems may not have the resources to test and check their updates to the same standard as proprietary companies. New updates are rolled out frequently which means they may contain more bugs and have more opportunities for something to go wrong.

Development Experience

Just like everything else, coding is something that takes time to master and if someone is not an experienced programmer any additions to the base code of the software may not be an improvement. In some cases, they will not work as intended or perhaps even cause the software to crash.

Monthly Subscription Costs

A lot of proprietary software is developed by large businesses. This means you have to pay to use that software. This may be in the form of a one-off license fee or a continuous subscription.

Slow Updates

Proprietary systems will usually have longer wait times between updates. Which means you’ll miss out on new features being added as your not due to update yet. They may have emergency updates if there is a need to fix a serious issue or security flaw.

Unable to be Modified

Because proprietary software does not give users the license to modify it, users are stuck with the software looking and behaving the way the developer intended. Many open-source programs allow users to download extra themes and plugins to customise it to the user’s preference. 


Q. 9 (B) Difference between RAM and ROM?
Answer :

 

DIFFERENCE

RAM

ROM

Data retention

RAM is a volatile memory which could store the data as long as the power is supplied.

ROM is a non-volatile memory which could retain the data even when power is turned off.

Working type

Data stored in RAM can be retrieved and altered.

Data stored in ROM can only be read.

Use

Used to store the data that has to be currently processed by CPU temporarily.

It stores the instructions required during bootstrap of the computer.

Speed

It is a high-speed memory.

It is much slower than the RAM.

CPU Interaction

The CPU can access the data stored on it.

The CPU can not access the data stored on it unless the data is stored in RAM.

Size and Capacity

Large size with higher capacity.

Small size with less capacity.

Used as/in

CPU Cache, Primary memory.

Firmware, Micro-controllers

Accessibility

The data stored is easily accessible

The data stored is not as easily accessible as in RAM

Cost

Costlier

cheaper than RAM.


Q. 9 (C ) : Difference between Virus and Span.

Answer :

 

Virus

A virus is a program which can self-replicate and insert itself into other applications on your computer. They vary in the amount of damage they can do, from simply slowing your computer down so much it becomes almost unusable to the worst scenario, which is destroying data, disabling software and deleting files.

Spam

Spam is unsolicited or junk email that clogs up your email inbox. The best way to deal with spam is not to open it or reply to it. Use your spam filter and if you are using a email site such as Gmail, be sure to report the spam, as every piece reported is added to a database. Be aware of which websites you enter your email address on, make sure the site states they will not sell your details onto a third party. When you sign up to some legitimate sites they will try to opt you in to as many advertising emails as possible, simply un-tick all the opt-in boxes.

Q. 9 (D) Difference between Template and Wizard ?

Answer :

 

Template

A template is a ready made blank document, with placeholders for items like text and graphics.

Templates are very useful. They are the skeletons of a document with much of the format of the document already laid out, for example headings, colour, fonts, tables and text boxes already set up. They speed up the creation of new documents because much of the design work has been done for you.

 

Under each of the tabs below are a number of templates of different designs. The one previwed is a template that can be used in PowerPoint.

Wizard

A wizard is a feature in a package that guides you through a complicated task. A popular use of wizards in general purpose packages is to take you, step by step, through the process of setting up a document. This wizard guides you through the stages involved in setting up a desktop publishing document.

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