### All Calculus 3 Resources

## Example Questions

### Example Question #31 : Matrices

Find the determinant of the matrix

**Possible Answers:**

**Correct answer:**

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 #32 : Matrices

Find the determinant of the matrix

**Possible Answers:**

**Correct answer:**

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 #33 : Matrices

Find the determinant of the matrix

**Possible Answers:**

**Correct answer:**

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 #34 : Matrices

Find the matrix product of , where and

**Possible Answers:**

**Correct answer:**

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 #35 : Matrices

Find the matrix product of , where and

**Possible Answers:**

**Correct answer:**

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 #36 : Matrices

Find the matrix product of , where and

**Possible Answers:**

**Correct answer:**

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 #37 : Matrices

Find the matrix product of , where and

**Possible Answers:**

**Correct answer:**

*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 #38 : Matrices

Find the matrix product of , where and

**Possible Answers:**

**Correct answer:**

*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 #39 : Matrices

Find the matrix product of , where and

**Possible Answers:**

**Correct answer:**

*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 #40 : Matrices

Find the determinant of the matrix

**Possible Answers:**

**Correct answer:**

These can then be further reduced via the method of finding the determinant of a 2x2 matrix:

For the matrix

The determinant is thus:

(It is of note that if a matrix has a zero determinant, then its columns are linearly dependent. In other words, one column could be created by some via some combination of the other two.

Note how if you multiply the second column by two and then subtract the first column, the third column results.)

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