All Calculus 3 Resources
Example Questions
Example Question #74 : Dot Product
Given the following two vectors, and , calculate the dot product between them,.
The dot product of a paired set of vectors can be found by summing up the individual products of the multiplications between matched directional vectors.
Note that the dot product is a scalar value rather than a vector; there's no directional term.
Now considering our problem, we're given the vectors
and
The dot product can be found following the example above:
Example Question #71 : Dot Product
Given the following two vectors, and , calculate the dot product between them,.
The dot product of a paired set of vectors can be found by summing up the individual products of the multiplications between matched directional vectors.
Note that the dot product is a scalar value rather than a vector; there's no directional term.
Now considering our problem, we're given the vectors
and
The dot product can be found following the example above:
Example Question #71 : Dot Product
Given the following two vectors, and , calculate the dot product between them,.
The dot product of a paired set of vectors can be found by summing up the individual products of the multiplications between matched directional vectors.
Note that the dot product is a scalar value rather than a vector; there's no directional term.
Now considering our problem, we're given the vectors
and
The dot product can be found following the example above:
Example Question #71 : Dot Product
Given the following two vectors, and , calculate the dot product between them,.
The dot product of a paired set of vectors can be found by summing up the individual products of the multiplications between matched directional vectors.
Note that the dot product is a scalar value rather than a vector; there's no directional term.
Now considering our problem, we're given the vectors
and
The dot product can be found following the example above:
Example Question #2391 : Calculus 3
Evaluate the dot product .
None of the other answers
None of the other answers
The correct answer is .
To compute the dot product, we take the corresponding components of each vector, and multiply them together. In this case, we have .
Note that taking the dot product of any two vectors will always return a scalar-valued expression (or just a simple scalar). There should be no vector brackets in your answer.
Example Question #2392 : Calculus 3
Find the dot product of the two vectors:
19.07
23.58
20.72
22.14
25.32
25.32
The dot product of two vectors is defined as:
For the given vectors, this is:
Example Question #2393 : Calculus 3
Find the magnitude of the following vector:
The magnitude of a vector is given by:
Example Question #394 : Vectors And Vector Operations
Find the dot product:
Write the dot product formula.
Substitute the values of the vectors and solve. The dot product will result in a number, not a vector.
The dot product is:
Example Question #395 : Vectors And Vector Operations
Find the length of the vector .
To find the length of the vector , we take the square root of the dot product :
Example Question #396 : Vectors And Vector Operations
Find the length of the vector .
To find the length of the vector , we take the square root of the dot product :