All Calculus 3 Resources
Example Questions
Example Question #376 : Vectors And Vector Operations
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 #2376 : Calculus 3
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 #2377 : Calculus 3
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 #377 : Vectors And Vector Operations
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 #378 : Vectors And Vector Operations
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:
Observe from this zero result that the two vectors must be perpendicular!
Example Question #381 : Vectors And Vector Operations
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 #382 : Vectors And Vector Operations
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 #383 : Vectors And Vector Operations
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 #384 : Vectors And Vector Operations
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 #385 : Vectors And Vector Operations
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: