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Page 1
Grade XII (2023-24)
Number of Paper: 1
Total number of Periods: 240 (35 Minutes Each)
Time: 3 Hours
Max Marks: 80
No. Units No. of
Periods
Marks
I Numbers, Quantification and Numerical
Applications
30 11
II Algebra 20 10
III Calculus 50 15
IV Probability Distributions 35 10
V Inferential Statistics 10 05
VI Index Numbers and Time-based data 30 06
VII Financial Mathematics 50 15
VIII Linear Programming 15 08
Total 240 80
Internal Assessment 20
Page 2
Grade XII (2023-24)
Number of Paper: 1
Total number of Periods: 240 (35 Minutes Each)
Time: 3 Hours
Max Marks: 80
No. Units No. of
Periods
Marks
I Numbers, Quantification and Numerical
Applications
30 11
II Algebra 20 10
III Calculus 50 15
IV Probability Distributions 35 10
V Inferential Statistics 10 05
VI Index Numbers and Time-based data 30 06
VII Financial Mathematics 50 15
VIII Linear Programming 15 08
Total 240 80
Internal Assessment 20
CLASS XII
Sl. No. Contents Learning Outcomes:
Students will be able to
Notes / Explanation
UNIT-1 NUMBERS, QUANTIFICATION AND NUMERICAL APPLICATIONS
1.1 Modulo
Arithmetic
? Define modulus of an integer
? Apply arithmetic operations
using modular arithmetic rules
? Definition and meaning
? Introduction to modulo
operator
? Modular addition and
subtraction
1.2 Congruence
Modulo
? Define congruence modulo
? Apply the definition in various
problems
? Definition and meaning
? Solution using congruence
modulo
? Equivalence class
1.4 Alligation and
Mixture
? Understand the rule of alligation
to produce a mixture at a given
price
? Determine the mean price of a
mixture
? Apply rule of alligation
? Meaning and Application of
rule of alligation
? Mean price of a mixture
1.5 Numerical
Problems
Solve real life problems mathematically
Boats and
Streams
(upstream and
downstream)
? Distinguish between upstream
and downstream
? Express the problem in the form
of an equation
? Problems based on speed of
stream and the speed of boat
in still water
Pipes and
Cisterns
? Determine the time taken by
two or more pipes to fill or
empty the tank
? Calculation of the portion of
the tank filled or drained by
the pipe(s) in unit time
Races and
Games
? Compare the performance of
two players w.r.t. time,
distance
? Calculation of the time
taken/ distance covered /
speed of each player
1.6 Numerical
Inequalities
? Describe the basic concepts of
numerical inequalities
? Understand and write numerical
inequalities
? Comparison between two
statements/situations which
can be compared numerically
? Application of the techniques
of numerical solution of
algebraic inequations
UNIT-2 ALGEBRA
2.1 Matrices and
types of
matrices
? Define matrix
? Identify different kinds of
matrices
? Find the size / order of matrices
? The entries, rows and
columns of matrices
? Present a set of data in a
matrix form
2.2 Equality of
matrices,
Transpose of a
matrix,
Symmetric and
Skew
symmetric
matrix
? Determine equality of two
matrices
? Write transpose of given matrix
? Define symmetric and skew
symmetric matrix
? Examples of transpose of
matrix
? A square matrix as a sum of
symmetric and skew
symmetric matrix
? Observe that diagonal
elements of skew symmetric
matrices are always zero
Page 3
Grade XII (2023-24)
Number of Paper: 1
Total number of Periods: 240 (35 Minutes Each)
Time: 3 Hours
Max Marks: 80
No. Units No. of
Periods
Marks
I Numbers, Quantification and Numerical
Applications
30 11
II Algebra 20 10
III Calculus 50 15
IV Probability Distributions 35 10
V Inferential Statistics 10 05
VI Index Numbers and Time-based data 30 06
VII Financial Mathematics 50 15
VIII Linear Programming 15 08
Total 240 80
Internal Assessment 20
CLASS XII
Sl. No. Contents Learning Outcomes:
Students will be able to
Notes / Explanation
UNIT-1 NUMBERS, QUANTIFICATION AND NUMERICAL APPLICATIONS
1.1 Modulo
Arithmetic
? Define modulus of an integer
? Apply arithmetic operations
using modular arithmetic rules
? Definition and meaning
? Introduction to modulo
operator
? Modular addition and
subtraction
1.2 Congruence
Modulo
? Define congruence modulo
? Apply the definition in various
problems
? Definition and meaning
? Solution using congruence
modulo
? Equivalence class
1.4 Alligation and
Mixture
? Understand the rule of alligation
to produce a mixture at a given
price
? Determine the mean price of a
mixture
? Apply rule of alligation
? Meaning and Application of
rule of alligation
? Mean price of a mixture
1.5 Numerical
Problems
Solve real life problems mathematically
Boats and
Streams
(upstream and
downstream)
? Distinguish between upstream
and downstream
? Express the problem in the form
of an equation
? Problems based on speed of
stream and the speed of boat
in still water
Pipes and
Cisterns
? Determine the time taken by
two or more pipes to fill or
empty the tank
? Calculation of the portion of
the tank filled or drained by
the pipe(s) in unit time
Races and
Games
? Compare the performance of
two players w.r.t. time,
distance
? Calculation of the time
taken/ distance covered /
speed of each player
1.6 Numerical
Inequalities
? Describe the basic concepts of
numerical inequalities
? Understand and write numerical
inequalities
? Comparison between two
statements/situations which
can be compared numerically
? Application of the techniques
of numerical solution of
algebraic inequations
UNIT-2 ALGEBRA
2.1 Matrices and
types of
matrices
? Define matrix
? Identify different kinds of
matrices
? Find the size / order of matrices
? The entries, rows and
columns of matrices
? Present a set of data in a
matrix form
2.2 Equality of
matrices,
Transpose of a
matrix,
Symmetric and
Skew
symmetric
matrix
? Determine equality of two
matrices
? Write transpose of given matrix
? Define symmetric and skew
symmetric matrix
? Examples of transpose of
matrix
? A square matrix as a sum of
symmetric and skew
symmetric matrix
? Observe that diagonal
elements of skew symmetric
matrices are always zero
2.3 Algebra of
Matrices
? Perform operations like addition
& subtraction on matrices of
same order
? Perform multiplication of two
matrices of appropriate order
? Perform multiplication of a
scalar with matrix
? Addition and Subtraction of
matrices
? Multiplication of matrices (It
can be shown to the students
that Matrix multiplication is
similar to multiplication of two
polynomials)
? Multiplication of a matrix with
a real number
2.4 Determinants ? Find determinant of a square
matrix
? Use elementary properties of
determinants
? Singular matrix, Non-singular
matrix
? |AB|=|A||B|
? Simple problems to find
determinant value
2.5 Inverse of a
matrix
? Define the inverse of a square
matrix
? Apply properties of inverse of
matrices
? Inverse of a matrix using:
a) cofactors
If A and B are invertible
square matrices of same size,
i) (AB)
-1
=B
-1
A
–1
ii) (A
-1
)
-1
=A
iii) (A
T
)
-1
= (A
-1
)
T
2.6 Solving system
of
simultaneous
equations
using matrix
method,
Cramer’s rule
and
? Solve the system of
simultaneous equations using
i) Cramer’s Rule
ii) Inverse of coefficient matrix
? Formulate real life problems
into a system of simultaneous
linear equations and solve it
using these methods
? Solution of system of
simultaneous equations upto
three variables only
(non- homogeneous
equations)
UNIT- 3 CALCULUS
Differentiation and its Applications
3.1 Higher Order
Derivatives
? Determine second and higher
order derivatives
? Understand differentiation of
parametric functions and
implicit functions
? Simple problems based on
higher order derivatives
? Differentiation of parametric
functions
and implicit functions (upto
2
nd
order)
3.2 Application of
Derivatives
? Determine the rate of change of
various quantities
? Understand the gradient of
tangent and normal to a curve at
a given point
? Write the equation of tangents
and normal to a curve at a given
point
? To find the rate of change of
quantities such as area and
volume with respect to time or
its dimension
? Gradient / Slope of tangent
and normal to the curve
? The equation of the tangent
and normal to the curve
(simple problems only)
3.3 Marginal Cost
and Marginal
Revenue using
derivatives
? Define marginal cost and
marginal revenue
? Find marginal cost and marginal
revenue
? Examples related to marginal
cost, marginal revenue, etc.
Page 4
Grade XII (2023-24)
Number of Paper: 1
Total number of Periods: 240 (35 Minutes Each)
Time: 3 Hours
Max Marks: 80
No. Units No. of
Periods
Marks
I Numbers, Quantification and Numerical
Applications
30 11
II Algebra 20 10
III Calculus 50 15
IV Probability Distributions 35 10
V Inferential Statistics 10 05
VI Index Numbers and Time-based data 30 06
VII Financial Mathematics 50 15
VIII Linear Programming 15 08
Total 240 80
Internal Assessment 20
CLASS XII
Sl. No. Contents Learning Outcomes:
Students will be able to
Notes / Explanation
UNIT-1 NUMBERS, QUANTIFICATION AND NUMERICAL APPLICATIONS
1.1 Modulo
Arithmetic
? Define modulus of an integer
? Apply arithmetic operations
using modular arithmetic rules
? Definition and meaning
? Introduction to modulo
operator
? Modular addition and
subtraction
1.2 Congruence
Modulo
? Define congruence modulo
? Apply the definition in various
problems
? Definition and meaning
? Solution using congruence
modulo
? Equivalence class
1.4 Alligation and
Mixture
? Understand the rule of alligation
to produce a mixture at a given
price
? Determine the mean price of a
mixture
? Apply rule of alligation
? Meaning and Application of
rule of alligation
? Mean price of a mixture
1.5 Numerical
Problems
Solve real life problems mathematically
Boats and
Streams
(upstream and
downstream)
? Distinguish between upstream
and downstream
? Express the problem in the form
of an equation
? Problems based on speed of
stream and the speed of boat
in still water
Pipes and
Cisterns
? Determine the time taken by
two or more pipes to fill or
empty the tank
? Calculation of the portion of
the tank filled or drained by
the pipe(s) in unit time
Races and
Games
? Compare the performance of
two players w.r.t. time,
distance
? Calculation of the time
taken/ distance covered /
speed of each player
1.6 Numerical
Inequalities
? Describe the basic concepts of
numerical inequalities
? Understand and write numerical
inequalities
? Comparison between two
statements/situations which
can be compared numerically
? Application of the techniques
of numerical solution of
algebraic inequations
UNIT-2 ALGEBRA
2.1 Matrices and
types of
matrices
? Define matrix
? Identify different kinds of
matrices
? Find the size / order of matrices
? The entries, rows and
columns of matrices
? Present a set of data in a
matrix form
2.2 Equality of
matrices,
Transpose of a
matrix,
Symmetric and
Skew
symmetric
matrix
? Determine equality of two
matrices
? Write transpose of given matrix
? Define symmetric and skew
symmetric matrix
? Examples of transpose of
matrix
? A square matrix as a sum of
symmetric and skew
symmetric matrix
? Observe that diagonal
elements of skew symmetric
matrices are always zero
2.3 Algebra of
Matrices
? Perform operations like addition
& subtraction on matrices of
same order
? Perform multiplication of two
matrices of appropriate order
? Perform multiplication of a
scalar with matrix
? Addition and Subtraction of
matrices
? Multiplication of matrices (It
can be shown to the students
that Matrix multiplication is
similar to multiplication of two
polynomials)
? Multiplication of a matrix with
a real number
2.4 Determinants ? Find determinant of a square
matrix
? Use elementary properties of
determinants
? Singular matrix, Non-singular
matrix
? |AB|=|A||B|
? Simple problems to find
determinant value
2.5 Inverse of a
matrix
? Define the inverse of a square
matrix
? Apply properties of inverse of
matrices
? Inverse of a matrix using:
a) cofactors
If A and B are invertible
square matrices of same size,
i) (AB)
-1
=B
-1
A
–1
ii) (A
-1
)
-1
=A
iii) (A
T
)
-1
= (A
-1
)
T
2.6 Solving system
of
simultaneous
equations
using matrix
method,
Cramer’s rule
and
? Solve the system of
simultaneous equations using
i) Cramer’s Rule
ii) Inverse of coefficient matrix
? Formulate real life problems
into a system of simultaneous
linear equations and solve it
using these methods
? Solution of system of
simultaneous equations upto
three variables only
(non- homogeneous
equations)
UNIT- 3 CALCULUS
Differentiation and its Applications
3.1 Higher Order
Derivatives
? Determine second and higher
order derivatives
? Understand differentiation of
parametric functions and
implicit functions
? Simple problems based on
higher order derivatives
? Differentiation of parametric
functions
and implicit functions (upto
2
nd
order)
3.2 Application of
Derivatives
? Determine the rate of change of
various quantities
? Understand the gradient of
tangent and normal to a curve at
a given point
? Write the equation of tangents
and normal to a curve at a given
point
? To find the rate of change of
quantities such as area and
volume with respect to time or
its dimension
? Gradient / Slope of tangent
and normal to the curve
? The equation of the tangent
and normal to the curve
(simple problems only)
3.3 Marginal Cost
and Marginal
Revenue using
derivatives
? Define marginal cost and
marginal revenue
? Find marginal cost and marginal
revenue
? Examples related to marginal
cost, marginal revenue, etc.
3.4 Increasing
/Decreasing
Functions
? Determine whether a function is
increasing or decreasing
? Determine the conditions for a
function to be increasing or
decreasing
? Simple problems related to
increasing and decreasing
behaviour of a function in the
given interval
3.5 Maxima and
Minima
? Determine critical points of the
function
? Find the point(s) of local maxima
and local minima and
corresponding local maximum
and local minimum values
? Find the absolute maximum and
absolute minimum value of a
function
? Solve applied problems
? A point x= c is called the
critical point of f if
f is defined at c and
f
'
(c) =
0 or f is not differentiable
at c
? To find local maxima and local
minima by:
i) First Derivative Test
ii) Second Derivative Test
? Contextualized real life
problems
Integration and its Applications
3.6 Integration
? Understand and determine
indefinite integrals of simple
functions as anti-derivative
? Integration as a reverse
process of differentiation
? Vocabulary and Notations
related to Integration
3.7 Indefinite
Integrals as
family of
curves
? Evaluate indefinite integrals of
simple algebraic functions by
method of:
i) substitution
ii) partial fraction
iii) by parts
? Simple integrals based on
each method (non-
trigonometric function)
3.8 Definite
Integrals as
area under the
curve
? Define definite integral as area
under the curve
? Understand fundamental
theorem of Integral calculus and
apply it to evaluate the definite
integral
? Apply properties of definite
integrals to solve the problems
? Evaluation of definite integrals
using properties
3.9 Application of
Integration
? Identify the region representing
C.S. and P.S. graphically
? Apply the definite integral to find
consumer surplus-producer
surplus
Problems based on finding
? Total cost when Marginal Cost
is given
? Total Revenue when Marginal
Revenue is given
? Equilibrium price and
equilibrium quantity and hence
consumer and producer
surplus
Differential Equations and Modeling
3.10 Differential
Equations
? Recognize a differential
equation
? Find the order and degree of a
differential equation
? Definition, order, degree and
examples
Page 5
Grade XII (2023-24)
Number of Paper: 1
Total number of Periods: 240 (35 Minutes Each)
Time: 3 Hours
Max Marks: 80
No. Units No. of
Periods
Marks
I Numbers, Quantification and Numerical
Applications
30 11
II Algebra 20 10
III Calculus 50 15
IV Probability Distributions 35 10
V Inferential Statistics 10 05
VI Index Numbers and Time-based data 30 06
VII Financial Mathematics 50 15
VIII Linear Programming 15 08
Total 240 80
Internal Assessment 20
CLASS XII
Sl. No. Contents Learning Outcomes:
Students will be able to
Notes / Explanation
UNIT-1 NUMBERS, QUANTIFICATION AND NUMERICAL APPLICATIONS
1.1 Modulo
Arithmetic
? Define modulus of an integer
? Apply arithmetic operations
using modular arithmetic rules
? Definition and meaning
? Introduction to modulo
operator
? Modular addition and
subtraction
1.2 Congruence
Modulo
? Define congruence modulo
? Apply the definition in various
problems
? Definition and meaning
? Solution using congruence
modulo
? Equivalence class
1.4 Alligation and
Mixture
? Understand the rule of alligation
to produce a mixture at a given
price
? Determine the mean price of a
mixture
? Apply rule of alligation
? Meaning and Application of
rule of alligation
? Mean price of a mixture
1.5 Numerical
Problems
Solve real life problems mathematically
Boats and
Streams
(upstream and
downstream)
? Distinguish between upstream
and downstream
? Express the problem in the form
of an equation
? Problems based on speed of
stream and the speed of boat
in still water
Pipes and
Cisterns
? Determine the time taken by
two or more pipes to fill or
empty the tank
? Calculation of the portion of
the tank filled or drained by
the pipe(s) in unit time
Races and
Games
? Compare the performance of
two players w.r.t. time,
distance
? Calculation of the time
taken/ distance covered /
speed of each player
1.6 Numerical
Inequalities
? Describe the basic concepts of
numerical inequalities
? Understand and write numerical
inequalities
? Comparison between two
statements/situations which
can be compared numerically
? Application of the techniques
of numerical solution of
algebraic inequations
UNIT-2 ALGEBRA
2.1 Matrices and
types of
matrices
? Define matrix
? Identify different kinds of
matrices
? Find the size / order of matrices
? The entries, rows and
columns of matrices
? Present a set of data in a
matrix form
2.2 Equality of
matrices,
Transpose of a
matrix,
Symmetric and
Skew
symmetric
matrix
? Determine equality of two
matrices
? Write transpose of given matrix
? Define symmetric and skew
symmetric matrix
? Examples of transpose of
matrix
? A square matrix as a sum of
symmetric and skew
symmetric matrix
? Observe that diagonal
elements of skew symmetric
matrices are always zero
2.3 Algebra of
Matrices
? Perform operations like addition
& subtraction on matrices of
same order
? Perform multiplication of two
matrices of appropriate order
? Perform multiplication of a
scalar with matrix
? Addition and Subtraction of
matrices
? Multiplication of matrices (It
can be shown to the students
that Matrix multiplication is
similar to multiplication of two
polynomials)
? Multiplication of a matrix with
a real number
2.4 Determinants ? Find determinant of a square
matrix
? Use elementary properties of
determinants
? Singular matrix, Non-singular
matrix
? |AB|=|A||B|
? Simple problems to find
determinant value
2.5 Inverse of a
matrix
? Define the inverse of a square
matrix
? Apply properties of inverse of
matrices
? Inverse of a matrix using:
a) cofactors
If A and B are invertible
square matrices of same size,
i) (AB)
-1
=B
-1
A
–1
ii) (A
-1
)
-1
=A
iii) (A
T
)
-1
= (A
-1
)
T
2.6 Solving system
of
simultaneous
equations
using matrix
method,
Cramer’s rule
and
? Solve the system of
simultaneous equations using
i) Cramer’s Rule
ii) Inverse of coefficient matrix
? Formulate real life problems
into a system of simultaneous
linear equations and solve it
using these methods
? Solution of system of
simultaneous equations upto
three variables only
(non- homogeneous
equations)
UNIT- 3 CALCULUS
Differentiation and its Applications
3.1 Higher Order
Derivatives
? Determine second and higher
order derivatives
? Understand differentiation of
parametric functions and
implicit functions
? Simple problems based on
higher order derivatives
? Differentiation of parametric
functions
and implicit functions (upto
2
nd
order)
3.2 Application of
Derivatives
? Determine the rate of change of
various quantities
? Understand the gradient of
tangent and normal to a curve at
a given point
? Write the equation of tangents
and normal to a curve at a given
point
? To find the rate of change of
quantities such as area and
volume with respect to time or
its dimension
? Gradient / Slope of tangent
and normal to the curve
? The equation of the tangent
and normal to the curve
(simple problems only)
3.3 Marginal Cost
and Marginal
Revenue using
derivatives
? Define marginal cost and
marginal revenue
? Find marginal cost and marginal
revenue
? Examples related to marginal
cost, marginal revenue, etc.
3.4 Increasing
/Decreasing
Functions
? Determine whether a function is
increasing or decreasing
? Determine the conditions for a
function to be increasing or
decreasing
? Simple problems related to
increasing and decreasing
behaviour of a function in the
given interval
3.5 Maxima and
Minima
? Determine critical points of the
function
? Find the point(s) of local maxima
and local minima and
corresponding local maximum
and local minimum values
? Find the absolute maximum and
absolute minimum value of a
function
? Solve applied problems
? A point x= c is called the
critical point of f if
f is defined at c and
f
'
(c) =
0 or f is not differentiable
at c
? To find local maxima and local
minima by:
i) First Derivative Test
ii) Second Derivative Test
? Contextualized real life
problems
Integration and its Applications
3.6 Integration
? Understand and determine
indefinite integrals of simple
functions as anti-derivative
? Integration as a reverse
process of differentiation
? Vocabulary and Notations
related to Integration
3.7 Indefinite
Integrals as
family of
curves
? Evaluate indefinite integrals of
simple algebraic functions by
method of:
i) substitution
ii) partial fraction
iii) by parts
? Simple integrals based on
each method (non-
trigonometric function)
3.8 Definite
Integrals as
area under the
curve
? Define definite integral as area
under the curve
? Understand fundamental
theorem of Integral calculus and
apply it to evaluate the definite
integral
? Apply properties of definite
integrals to solve the problems
? Evaluation of definite integrals
using properties
3.9 Application of
Integration
? Identify the region representing
C.S. and P.S. graphically
? Apply the definite integral to find
consumer surplus-producer
surplus
Problems based on finding
? Total cost when Marginal Cost
is given
? Total Revenue when Marginal
Revenue is given
? Equilibrium price and
equilibrium quantity and hence
consumer and producer
surplus
Differential Equations and Modeling
3.10 Differential
Equations
? Recognize a differential
equation
? Find the order and degree of a
differential equation
? Definition, order, degree and
examples
3.11 Formulating
and Solving
Differential
Equations
? Formulate differential equation
? Verify the solution of differential
equation
? Solve simple differential
equation
? Formation of differential
equation by eliminating
arbitrary constants
? Solution of simple differential
equations (direct integration
only)
3.12 Application of
Differential
Equations
? Define Growth and Decay Model
? Apply the differential equations
to solve Growth and Decay
Models
? Growth and Decay Model in
Biological sciences,
Economics and business, etc.
UNIT- 4 PROBABILITY DISTRIBUTIONS
4.1 Probability
Distribution
? Understand the concept of
Random Variables and its
Probability Distributions
? Find probability distribution of
discrete random variable
? Definition and example of
discrete and continuous
random variable and their
distribution
4.2 Mathematical
Expectation
? Apply arithmetic mean of
frequency distribution to find the
expected value of a random
variable
? The expected value of discrete
random variable as summation
of product of discrete random
variable by the probability of its
occurrence.
4.3 Variance ? Calculate the Variance and S.D.
of a random variable
? Questions based on variance
and standard deviation
4.4 Binomial
Distribution
? Identify the Bernoulli Trials and
apply Binomial Distribution
? Evaluate Mean, Variance and
S.D of a binomial distribution
? Characteristics of the binomial
distribution
? Binomial formula:
P(r) =
n
C r p
r
q
n-r
Where n = number of trials
P = probability of
success
q = probability of
failure
Mean =np
Variance = npq
Standard Deviation = v??????
4.5 Poison
Distribution
? Understand the Conditions of
Poisson Distribution
? Evaluate the Mean and
Variance of Poisson distribution
? Characteristics of Poisson
Probability distribution
Poisson formula:
P(x) =
?? ?? . ?? -?? ?? !
? Mean = Variance = ??
4.6 Normal
Distribution
? Understand normal distribution
is a Continuous distribution
? Evaluate value of Standard
normal variate
? Area relationship between Mean
and Standard Deviation
? Characteristics of a normal
probability distribution
? Total area under the curve =
total probability = 1
? Standard Normal Variate:
Z =
?? - ?? ?? where
x = value of the random variable
?? = mean
?? = S.D.
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FAQs on Syllabus: Applied Mathematics for Class 12 - Applied Mathematics for Class 12 - Commerce
| 1. What is applied mathematics for Class 12 Commerce? |  |
Applied Mathematics for Class 12 Commerce is a subject that focuses on the practical application of mathematical concepts and principles in various business and commerce-related scenarios. It helps students develop problem-solving skills and analytical thinking abilities to make informed decisions in the business world.
| 2. What are the key topics covered in the syllabus of applied mathematics for Class 12 Commerce? | |
The syllabus of applied mathematics for Class 12 Commerce typically includes topics such as linear programming, probability, matrices, financial planning, statistics, and mathematics of finance. These topics are designed to provide students with a strong foundation in mathematical techniques and their real-life applications in commerce.
| 3. How can applied mathematics skills be useful in the field of commerce? | |
Applied mathematics skills are highly valuable in the field of commerce as they enable students to analyze complex data, make accurate predictions, and solve optimization problems. For example, linear programming techniques can help businesses optimize their resources and maximize profits, while probability and statistics can assist in making informed decisions based on market trends and consumer behavior.
| 4. What are the career prospects for students with a strong foundation in applied mathematics for Class 12 Commerce? | |
Students with a strong foundation in applied mathematics for Class 12 Commerce have a wide range of career prospects. They can pursue careers in fields such as finance, banking, insurance, market research, data analysis, supply chain management, and business consulting. These industries require professionals who can effectively analyze data, identify patterns, and make strategic decisions based on mathematical models.
| 5. How can students prepare effectively for the applied mathematics exam for Class 12 Commerce? | |
To prepare effectively for the applied mathematics exam for Class 12 Commerce, students can follow these tips:
1. Understand the syllabus thoroughly and prioritize topics based on their weightage in the exam.
2. Practice solving a variety of problems from each topic to enhance problem-solving skills.
3. Seek help from teachers or online resources for clarification on complex concepts.
4. Create a study schedule and allocate dedicated time for revision.
5. Solve previous years' question papers and sample papers to get familiar with the exam pattern and improve time management skills.
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Nov 09, 2024 Last updated |
Document Description: Syllabus: Applied Mathematics for Class 12 for Commerce 2024 is part of Applied Mathematics for Class 12 preparation.
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The guide includes previous years' question papers for students to familiarize themselves with the exam's format and difficulty level.
Additionally, it offers subject-specific question banks, allowing students to focus on weak areas and improve their performance.
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The content of Syllabus: Applied Mathematics for Class 12 is prepared as per the latest Commerce syllabus.
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