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Computer Science 
Class -XI 
Code No. 083 
2023-24 
 
 
1. Learning Outcomes 
Students should be able to: 
a) develop basic computational thinking 
b) explain and use data types 
c) appreciate the notion of algorithms 
d) develop a basic understanding of computer systems- architecture, operating 
system, and cloud computing 
e) explain cyber ethics, cyber safety, and cybercrime 
f) understand the value of technology in societies along with consideration of gender 
and disability issues.                                                                                                              
 
2. Distribution of Marks 
 
Unit No. Unit Name Marks            Periods 
Theory Practical 
I Computer Systems and Organisation 10 10 10 
II Computational Thinking and 
Programming -1 
45 80 60 
III Society, Law, and Ethics 15 20 — 
 Total 70 110 70 
 
3. Unit wise Syllabus  
Unit I: Computer Systems and Organisation 
? Basic computer organisation: Introduction to Computer System, hardware, software, input 
device, output device, CPU, memory (primary, cache and secondary), units of memory ( 
bit, byte, KB, MB, GB, TB, PB) 
? Types of software: System software ( Operating systems, system utilities, device drivers), 
programming tools and language translators ( assembler, compiler, and interpreter), 
application software 
? Operating System(OS): functions of the operating system, OS user interface 
? Boolean logic: NOT, AND, OR, NAND, NOR, XOR, NOT, truth tables and De Morgan’s 
laws, Logic circuits 
? Number System: Binary, Octal, Decimal and Hexadecimal number system; conversion 
Page 2


Computer Science 
Class -XI 
Code No. 083 
2023-24 
 
 
1. Learning Outcomes 
Students should be able to: 
a) develop basic computational thinking 
b) explain and use data types 
c) appreciate the notion of algorithms 
d) develop a basic understanding of computer systems- architecture, operating 
system, and cloud computing 
e) explain cyber ethics, cyber safety, and cybercrime 
f) understand the value of technology in societies along with consideration of gender 
and disability issues.                                                                                                              
 
2. Distribution of Marks 
 
Unit No. Unit Name Marks            Periods 
Theory Practical 
I Computer Systems and Organisation 10 10 10 
II Computational Thinking and 
Programming -1 
45 80 60 
III Society, Law, and Ethics 15 20 — 
 Total 70 110 70 
 
3. Unit wise Syllabus  
Unit I: Computer Systems and Organisation 
? Basic computer organisation: Introduction to Computer System, hardware, software, input 
device, output device, CPU, memory (primary, cache and secondary), units of memory ( 
bit, byte, KB, MB, GB, TB, PB) 
? Types of software: System software ( Operating systems, system utilities, device drivers), 
programming tools and language translators ( assembler, compiler, and interpreter), 
application software 
? Operating System(OS): functions of the operating system, OS user interface 
? Boolean logic: NOT, AND, OR, NAND, NOR, XOR, NOT, truth tables and De Morgan’s 
laws, Logic circuits 
? Number System: Binary, Octal, Decimal and Hexadecimal number system; conversion 
between number systems 
? Encoding Schemes: ASCII, ISCII, and Unicode (UTF8, UTF32) 
 Unit II: Computational Thinking and Programming - I 
? Introduction to Problem-solving: Steps for Problem-solving (Analyzing the problem, 
developing an algorithm, coding, testing, and debugging), representation of algorithms 
using flowchart and pseudocode, decomposition 
? Familiarization with the basics of Python programming:  Introduction to Python, Features 
of Python, executing a simple “hello world" program, execution modes: interactive mode 
and script mode, Python character set, Python tokens( keyword, identifier, literal, operator, 
punctuator), variables, concept of l-value and r-value, use of comments 
? Knowledge of data types: Number(integer, floating point,complex), boolean, 
sequence(string, list, tuple), None, Mapping(dictionary), mutable and immutable data 
types. 
? Operators: arithmetic operators, relational operators, logical operators, assignment 
operators, augmented assignment operators, identity operators (is, is not), membership 
operators (in not in) 
? Expressions, statement, type conversion, and input/output: precedence of operators, 
expression, evaluation of an expression, type-conversion (explicit and implicit conversion), 
accepting data as input from the console and displaying output. 
? Errors- syntax errors, logical errors, and run-time errors  
? Flow of Control: introduction, use of indentation, sequential flow, conditional and iterative 
flow 
? Conditional statements: if, if-else, if-elif-else, flowcharts, simple programs:  e.g.: absolute 
value, sort 3 numbers and divisibility of a number. 
? Iterative Statement: for loop, range(), while loop, flowcharts, break and continue 
statements, nested loops, suggested programs: generating pattern, summation of series, 
finding the factorial of a positive number, etc. 
? Strings: introduction, string operations (concatenation, repetition, membership and slicing), 
traversing a string using loops, built-in functions/methods–len(), capitalize(), title(), lower(), 
upper(), count(), find(), index(), endswith(), startswith(), isalnum(), isalpha(), isdigit(), 
islower(), isupper(), isspace(),lstrip(), rstrip(), strip(), replace(), join(),  partition(), split() 
? Lists: introduction, indexing, list operations (concatenation, repetition, membership and 
slicing), traversing a list using loops, built-in functions/methods–len(), list(), append(), 
extend(), insert(), count(), index(), remove(), pop(), reverse(), sort(), sorted(), min(), max(), 
sum(); nested lists, suggested programs: finding the maximum, minimum, mean of numeric 
values stored in a list; linear search on list of numbers and counting the frequency of 
elements in a list. 
? Tuples: introduction, indexing, tuple operations (concatenation, repetition,  membership 
and slicing);  built-in functions/methods  –  len(), tuple(), count(), index(), sorted(), min(), 
max(), sum(); tuple assignment, nested tuple; suggested programs: finding the minimum, 
maximum, mean of values stored in a tuple; linear search on a tuple of numbers, counting 
the frequency of elements in a tuple. 
? Dictionary: introduction, accessing items in a dictionary using keys, mutability of a 
dictionary (adding a new term, modifying an existing item), traversing a dictionary, built-in 
Page 3


Computer Science 
Class -XI 
Code No. 083 
2023-24 
 
 
1. Learning Outcomes 
Students should be able to: 
a) develop basic computational thinking 
b) explain and use data types 
c) appreciate the notion of algorithms 
d) develop a basic understanding of computer systems- architecture, operating 
system, and cloud computing 
e) explain cyber ethics, cyber safety, and cybercrime 
f) understand the value of technology in societies along with consideration of gender 
and disability issues.                                                                                                              
 
2. Distribution of Marks 
 
Unit No. Unit Name Marks            Periods 
Theory Practical 
I Computer Systems and Organisation 10 10 10 
II Computational Thinking and 
Programming -1 
45 80 60 
III Society, Law, and Ethics 15 20 — 
 Total 70 110 70 
 
3. Unit wise Syllabus  
Unit I: Computer Systems and Organisation 
? Basic computer organisation: Introduction to Computer System, hardware, software, input 
device, output device, CPU, memory (primary, cache and secondary), units of memory ( 
bit, byte, KB, MB, GB, TB, PB) 
? Types of software: System software ( Operating systems, system utilities, device drivers), 
programming tools and language translators ( assembler, compiler, and interpreter), 
application software 
? Operating System(OS): functions of the operating system, OS user interface 
? Boolean logic: NOT, AND, OR, NAND, NOR, XOR, NOT, truth tables and De Morgan’s 
laws, Logic circuits 
? Number System: Binary, Octal, Decimal and Hexadecimal number system; conversion 
between number systems 
? Encoding Schemes: ASCII, ISCII, and Unicode (UTF8, UTF32) 
 Unit II: Computational Thinking and Programming - I 
? Introduction to Problem-solving: Steps for Problem-solving (Analyzing the problem, 
developing an algorithm, coding, testing, and debugging), representation of algorithms 
using flowchart and pseudocode, decomposition 
? Familiarization with the basics of Python programming:  Introduction to Python, Features 
of Python, executing a simple “hello world" program, execution modes: interactive mode 
and script mode, Python character set, Python tokens( keyword, identifier, literal, operator, 
punctuator), variables, concept of l-value and r-value, use of comments 
? Knowledge of data types: Number(integer, floating point,complex), boolean, 
sequence(string, list, tuple), None, Mapping(dictionary), mutable and immutable data 
types. 
? Operators: arithmetic operators, relational operators, logical operators, assignment 
operators, augmented assignment operators, identity operators (is, is not), membership 
operators (in not in) 
? Expressions, statement, type conversion, and input/output: precedence of operators, 
expression, evaluation of an expression, type-conversion (explicit and implicit conversion), 
accepting data as input from the console and displaying output. 
? Errors- syntax errors, logical errors, and run-time errors  
? Flow of Control: introduction, use of indentation, sequential flow, conditional and iterative 
flow 
? Conditional statements: if, if-else, if-elif-else, flowcharts, simple programs:  e.g.: absolute 
value, sort 3 numbers and divisibility of a number. 
? Iterative Statement: for loop, range(), while loop, flowcharts, break and continue 
statements, nested loops, suggested programs: generating pattern, summation of series, 
finding the factorial of a positive number, etc. 
? Strings: introduction, string operations (concatenation, repetition, membership and slicing), 
traversing a string using loops, built-in functions/methods–len(), capitalize(), title(), lower(), 
upper(), count(), find(), index(), endswith(), startswith(), isalnum(), isalpha(), isdigit(), 
islower(), isupper(), isspace(),lstrip(), rstrip(), strip(), replace(), join(),  partition(), split() 
? Lists: introduction, indexing, list operations (concatenation, repetition, membership and 
slicing), traversing a list using loops, built-in functions/methods–len(), list(), append(), 
extend(), insert(), count(), index(), remove(), pop(), reverse(), sort(), sorted(), min(), max(), 
sum(); nested lists, suggested programs: finding the maximum, minimum, mean of numeric 
values stored in a list; linear search on list of numbers and counting the frequency of 
elements in a list. 
? Tuples: introduction, indexing, tuple operations (concatenation, repetition,  membership 
and slicing);  built-in functions/methods  –  len(), tuple(), count(), index(), sorted(), min(), 
max(), sum(); tuple assignment, nested tuple; suggested programs: finding the minimum, 
maximum, mean of values stored in a tuple; linear search on a tuple of numbers, counting 
the frequency of elements in a tuple. 
? Dictionary: introduction, accessing items in a dictionary using keys, mutability of a 
dictionary (adding a new term, modifying an existing item), traversing a dictionary, built-in 
functions/methods – len(), dict(), keys(), values(), items(), get(), update(), del(), del,  clear(),  
fromkeys(), copy(), pop(), popitem(), setdefault(), max(), min(), sorted(); Suggested 
programs: count the number of times a character appears in a given string using a 
dictionary, create a dictionary with names of employees, their salary and access them. 
? Introduction to Python modules: Importing module using ‘import <module>’ and using from 
statement, importing  math module (pi, e, sqrt(), ceil(), floor(), pow(), fabs(), sin(), cos(), 
tan()); random module (random(), randint(), randrange()), statistics module (mean(), 
median(), mode()). 
 
Unit III: Society, Law and Ethics 
? Digital Footprints 
? Digital Society and Netizen: net etiquettes, communication etiquettes, social media 
étiquettes 
? Data Protection:  Intellectual property rights (copyright, patent , trademark), violation of 
IPR(plagiarism, copyright infringement, trademark infringement), open source software and 
licensing (Creative Commons, GPL and Apache) 
? Cyber Crime: definition, hacking, eavesdropping, phishing and fraud emails, ransomware, 
cyber trolls, cyber bullying 
? Cyber safety: safely browsing the web, identity protection, confidentiality 
? Malware: viruses, trojans, adware 
? E-waste management: proper disposal of used electronic gadgets. 
? Information Technology  Act (IT Act) 
? Technology and society: Gender and disability issues while teaching and using computers 
 
4. Practical  
 
S.No. Unit Name Marks (Total=30) 
1.                             Lab Test (12 marks) 
 Python program (60% logic + 20% documentation + 20% 
code quality) 
12 
2.                          Report File + Viva (10 marks) 
 Report file: Minimum 20 Python programs 7 
Viva voce 3 
3. 
Project (that uses most of the concepts that have been 
learnt) 
8 
 
5. Suggested Practical List  
Python Programming 
 
? Input a welcome message and display it. 
? Input two numbers and display the larger / smaller number. 
Page 4


Computer Science 
Class -XI 
Code No. 083 
2023-24 
 
 
1. Learning Outcomes 
Students should be able to: 
a) develop basic computational thinking 
b) explain and use data types 
c) appreciate the notion of algorithms 
d) develop a basic understanding of computer systems- architecture, operating 
system, and cloud computing 
e) explain cyber ethics, cyber safety, and cybercrime 
f) understand the value of technology in societies along with consideration of gender 
and disability issues.                                                                                                              
 
2. Distribution of Marks 
 
Unit No. Unit Name Marks            Periods 
Theory Practical 
I Computer Systems and Organisation 10 10 10 
II Computational Thinking and 
Programming -1 
45 80 60 
III Society, Law, and Ethics 15 20 — 
 Total 70 110 70 
 
3. Unit wise Syllabus  
Unit I: Computer Systems and Organisation 
? Basic computer organisation: Introduction to Computer System, hardware, software, input 
device, output device, CPU, memory (primary, cache and secondary), units of memory ( 
bit, byte, KB, MB, GB, TB, PB) 
? Types of software: System software ( Operating systems, system utilities, device drivers), 
programming tools and language translators ( assembler, compiler, and interpreter), 
application software 
? Operating System(OS): functions of the operating system, OS user interface 
? Boolean logic: NOT, AND, OR, NAND, NOR, XOR, NOT, truth tables and De Morgan’s 
laws, Logic circuits 
? Number System: Binary, Octal, Decimal and Hexadecimal number system; conversion 
between number systems 
? Encoding Schemes: ASCII, ISCII, and Unicode (UTF8, UTF32) 
 Unit II: Computational Thinking and Programming - I 
? Introduction to Problem-solving: Steps for Problem-solving (Analyzing the problem, 
developing an algorithm, coding, testing, and debugging), representation of algorithms 
using flowchart and pseudocode, decomposition 
? Familiarization with the basics of Python programming:  Introduction to Python, Features 
of Python, executing a simple “hello world" program, execution modes: interactive mode 
and script mode, Python character set, Python tokens( keyword, identifier, literal, operator, 
punctuator), variables, concept of l-value and r-value, use of comments 
? Knowledge of data types: Number(integer, floating point,complex), boolean, 
sequence(string, list, tuple), None, Mapping(dictionary), mutable and immutable data 
types. 
? Operators: arithmetic operators, relational operators, logical operators, assignment 
operators, augmented assignment operators, identity operators (is, is not), membership 
operators (in not in) 
? Expressions, statement, type conversion, and input/output: precedence of operators, 
expression, evaluation of an expression, type-conversion (explicit and implicit conversion), 
accepting data as input from the console and displaying output. 
? Errors- syntax errors, logical errors, and run-time errors  
? Flow of Control: introduction, use of indentation, sequential flow, conditional and iterative 
flow 
? Conditional statements: if, if-else, if-elif-else, flowcharts, simple programs:  e.g.: absolute 
value, sort 3 numbers and divisibility of a number. 
? Iterative Statement: for loop, range(), while loop, flowcharts, break and continue 
statements, nested loops, suggested programs: generating pattern, summation of series, 
finding the factorial of a positive number, etc. 
? Strings: introduction, string operations (concatenation, repetition, membership and slicing), 
traversing a string using loops, built-in functions/methods–len(), capitalize(), title(), lower(), 
upper(), count(), find(), index(), endswith(), startswith(), isalnum(), isalpha(), isdigit(), 
islower(), isupper(), isspace(),lstrip(), rstrip(), strip(), replace(), join(),  partition(), split() 
? Lists: introduction, indexing, list operations (concatenation, repetition, membership and 
slicing), traversing a list using loops, built-in functions/methods–len(), list(), append(), 
extend(), insert(), count(), index(), remove(), pop(), reverse(), sort(), sorted(), min(), max(), 
sum(); nested lists, suggested programs: finding the maximum, minimum, mean of numeric 
values stored in a list; linear search on list of numbers and counting the frequency of 
elements in a list. 
? Tuples: introduction, indexing, tuple operations (concatenation, repetition,  membership 
and slicing);  built-in functions/methods  –  len(), tuple(), count(), index(), sorted(), min(), 
max(), sum(); tuple assignment, nested tuple; suggested programs: finding the minimum, 
maximum, mean of values stored in a tuple; linear search on a tuple of numbers, counting 
the frequency of elements in a tuple. 
? Dictionary: introduction, accessing items in a dictionary using keys, mutability of a 
dictionary (adding a new term, modifying an existing item), traversing a dictionary, built-in 
functions/methods – len(), dict(), keys(), values(), items(), get(), update(), del(), del,  clear(),  
fromkeys(), copy(), pop(), popitem(), setdefault(), max(), min(), sorted(); Suggested 
programs: count the number of times a character appears in a given string using a 
dictionary, create a dictionary with names of employees, their salary and access them. 
? Introduction to Python modules: Importing module using ‘import <module>’ and using from 
statement, importing  math module (pi, e, sqrt(), ceil(), floor(), pow(), fabs(), sin(), cos(), 
tan()); random module (random(), randint(), randrange()), statistics module (mean(), 
median(), mode()). 
 
Unit III: Society, Law and Ethics 
? Digital Footprints 
? Digital Society and Netizen: net etiquettes, communication etiquettes, social media 
étiquettes 
? Data Protection:  Intellectual property rights (copyright, patent , trademark), violation of 
IPR(plagiarism, copyright infringement, trademark infringement), open source software and 
licensing (Creative Commons, GPL and Apache) 
? Cyber Crime: definition, hacking, eavesdropping, phishing and fraud emails, ransomware, 
cyber trolls, cyber bullying 
? Cyber safety: safely browsing the web, identity protection, confidentiality 
? Malware: viruses, trojans, adware 
? E-waste management: proper disposal of used electronic gadgets. 
? Information Technology  Act (IT Act) 
? Technology and society: Gender and disability issues while teaching and using computers 
 
4. Practical  
 
S.No. Unit Name Marks (Total=30) 
1.                             Lab Test (12 marks) 
 Python program (60% logic + 20% documentation + 20% 
code quality) 
12 
2.                          Report File + Viva (10 marks) 
 Report file: Minimum 20 Python programs 7 
Viva voce 3 
3. 
Project (that uses most of the concepts that have been 
learnt) 
8 
 
5. Suggested Practical List  
Python Programming 
 
? Input a welcome message and display it. 
? Input two numbers and display the larger / smaller number. 
? Input three numbers and display the largest / smallest number. 
? Generate the following patterns using nested loops: 
 
Pattern-1 Pattern-2 Pattern-3 
* 
** 
*** 
**** 
***** 
12345 
1234 
123 
12 
1 
A 
AB 
ABC 
ABCD 
ABCDE 
 
? Write a program to input the value of x and n and print the sum  of  the following series: 
? 1 + ?? + ?? 2
+ ?? 3
+ ?? 4
+ ? ?? ?? 
? 1 - ?? + ?? 2
- ?? 3
+ ?? 4
- ? ?? ?? 
? ?? +
?? 2
2
+
?? 3
3
+
?? 4
4
+ ?
?? ?? ?? 
? ?? +
?? 2
2 !
+
?? 3
3 !
+
?? 4
4 !
+ ?
?? ?? ?? !
 
? Determine whether a number is a perfect number, an Armstrong number or a palindrome. 
? Input a number and check if the number is a prime or composite number. 
? Display the terms of a Fibonacci series. 
? Compute the greatest common divisor and least common multiple of two integers. 
? Count and display the number of vowels, consonants, uppercase, lowercase characters in 
string. 
? Input a string and determine whether it is a palindrome or not; convert the case of characters 
in a string. 
? Find the largest/smallest number in a list/tuple 
? Input a list of numbers and swap elements at the even location with the elements at the odd 
location. 
? Input a list/tuple of elements, search for a given element in the list/tuple. 
? Create a dictionary with the roll number, name and marks of n students in a class and display 
the names of students who have marks above 75. 
6. Suggested Reading Material 
? NCERT Textbook for Computer Science (Class XI) 
? Support Material on CBSE website 
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