CLO 2: Apply different methods to solve the linear systems of the form Ax = b in physical problem such as solving electric circuits, making nutritious diet plan and also in solving vector differential equation of the form v/= Av and eigen-value problems Question No. 2: Part:d: Suppose that four vertices of the parallelogram are given by data matrix P using the homogenous coordinate system where [02 P 3 0 0 1.5 1 1.5 1 1 1 1 First translate P(parallelogram) by (3, 1) and then scale this translated parallelogram by the factor of 2. Write two 3*3 matrices for above transformations. Also write one 3*3 matrix for the composite transformation. Sketch the original and transformed parallelogram after the composite transformation.
CLO 2: Apply different methods to solve the linear systems of the form Ax = b in physical problem such as solving electric circuits, making nutritious diet plan and also in solving vector differential equation of the form v/= Av and eigen-value problems Question No. 2: Part:d: Suppose that four vertices of the parallelogram are given by data matrix P using the homogenous coordinate system where [02 P 3 0 0 1.5 1 1.5 1 1 1 1 First translate P(parallelogram) by (3, 1) and then scale this translated parallelogram by the factor of 2. Write two 3*3 matrices for above transformations. Also write one 3*3 matrix for the composite transformation. Sketch the original and transformed parallelogram after the composite transformation.
CLO 2: Apply different methods to solve the linear systems of the form Ax = b in physical problem such as solving electric circuits, making nutritious diet plan and also in solving vector differential equation of the form v/= Av and eigen-value problems Question No. 2: Part:d: Suppose that four vertices of the parallelogram are given by data matrix P using the homogenous coordinate system where [02 P 3 0 0 1.5 1 1.5 1 1 1 1 First translate P(parallelogram) by (3, 1) and then scale this translated parallelogram by the factor of 2. Write two 3*3 matrices for above transformations. Also write one 3*3 matrix for the composite transformation. Sketch the original and transformed parallelogram after the composite transformation.
Transcribed Image Text:CLO 2: Apply different methods to solve the linear systems of the form Ax = b in physical
problem such as solving electric circuits, making nutritious diet plan and also in solving
vector differential equation of the form v = Av and eigen-value problems
Question No. 2:
Part:d:
Suppose that four vertices of the parallelogram are given by data matrix P using the
homogenous coordinate system where
3
[o 2
P = 0 0
li 1
1
1.5
1.5
1 1
First translate P(parallelogram) by (3, 1) and then scale this translated parallelogram by the
factor of 2. Write two 3*3 matrices for above transformations.
Also write one 3*3 matrix for the composite transformation.
Sketch the original and transformed parallelogram after the composite transformation.
Branch of mathematics concerned with mathematical structures that are closed under operations like addition and scalar multiplication. It is the study of linear combinations, vector spaces, lines and planes, and some mappings that are used to perform linear transformations. Linear algebra also includes vectors, matrices, and linear functions. It has many applications from mathematical physics to modern algebra and coding theory.
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