All Calculus 3 Resources
Example Questions
Example Question #95 : Matrices
Find the determinant of the matrix
The determinant of a 3x3 matrix can be found via a means of reduction into three 2x2 matrices as follows:
These can then be further reduced via the method of finding the determinant of a 2x2 matrix:
For the matrix
The determinant is thus:
Example Question #96 : Matrices
Find the determinant of the matrix
The determinant of a 3x3 matrix can be found via a means of reduction into three 2x2 matrices as follows:
These can then be further reduced via the method of finding the determinant of a 2x2 matrix:
For the matrix
The determinant is thus:
Example Question #97 : Matrices
Find the determinant of the matrix
The determinant of a 3x3 matrix can be found via a means of reduction into three 2x2 matrices as follows:
These can then be further reduced via the method of finding the determinant of a 2x2 matrix:
For the matrix
The determinant is thus:
Example Question #98 : Matrices
Find the determinant of the matrix
The determinant of a 3x3 matrix can be found via a means of reduction into three 2x2 matrices as follows:
These can then be further reduced via the method of finding the determinant of a 2x2 matrix:
For the matrix
The determinant is thus:
Example Question #99 : Matrices
Find the determinant of the matrix
The determinant of a 3x3 matrix can be found via a means of reduction into three 2x2 matrices as follows:
These can then be further reduced via the method of finding the determinant of a 2x2 matrix:
For the matrix
The determinant is thus:
Example Question #100 : Matrices
Find the determinant of the matrix
The determinant of a 3x3 matrix can be found via a means of reduction into three 2x2 matrices as follows:
These can then be further reduced via the method of finding the determinant of a 2x2 matrix:
For the matrix
The determinant is thus:
Example Question #101 : Matrices
Find the matrix product of , where and
In order to multiply two matrices, , the respective dimensions of each must be of the form and to create an (notation is rows x columns) matrix. Unlike the multiplication of individual values, the order of the matrices does matter.
For a multiplication of the form
The resulting matrix is
The notation may be daunting but numerical examples may elucidate.
We're told that
and
The resulting matrix product is then:
Example Question #691 : Vectors And Vector Operations
Find the matrix product of , where and
In order to multiply two matrices, , the respective dimensions of each must be of the form and to create an (notation is rows x columns) matrix. Unlike the multiplication of individual values, the order of the matrices does matter.
For a multiplication of the form
The resulting matrix is
The notation may be daunting but numerical examples may elucidate.
We're told that
and
The resulting matrix product is then:
Example Question #103 : Matrices
Find the matrix product of , where and
In order to multiply two matrices, , the respective dimensions of each must be of the form and to create an (notation is rows x columns) matrix. Unlike the multiplication of individual values, the order of the matrices does matter.
For a multiplication of the form
The resulting matrix is
The notation may be daunting but numerical examples may elucidate.
We're told that
and
The resulting matrix product is then:
Example Question #104 : Matrices
Find the matrix product of , where and
In order to multiply two matrices, , the respective dimensions of each must be of the form and to create an (notation is rows x columns) matrix. Unlike the multiplication of individual values, the order of the matrices does matter.
For a multiplication of the form
The resulting matrix is
The notation may be daunting but numerical examples may elucidate.
We're told that
and
The resulting matrix product is then: