All Calculus 2 Resources
Example Questions
Example Question #61 : Vector Form
Given points and , what is the vector form of the distance between the points?
In order to derive the vector form of the distance between two points, we must find the difference between the , , and elements of the points. That is, for any point and , the distance is the vector .
Subbing in our original points and , we get:
Example Question #61 : Vector Form
What is the derivative of the vector function
?
The derivative of a vector function has its components consisting of the derivatives of its components:
since the derivatives of are , respectively.
Example Question #442 : Gre Subject Test: Math
Given the vector function
what is the derivative of the vector function?
The derivative of a vector function is just the derivative of components:
The derivative of each component was found using the power rule which states,
.
Thus,
,
,
.
Example Question #61 : Vectors & Spaces
What is not a way of describing the circle in parametric form? Use the time interval .
All of the other answers describe the circle mentioned in the question.
All of the other answers describe the circle mentioned in the question.
All of the vector forms above describe the circle since if we square their components and add them, we get (using trig. identities):
Therefore we get,
.
Example Question #62 : Vector
What is the vector form of ?
In order to derive the vector form, we must map the , , -coordinates to their corresponding , , and coefficients.
That is, given , the vector form is .
So for , we can derive the vector form .
Example Question #261 : Algebra
Given points and , what is the vector form of the distance between the points?
In order to derive the vector form of the distance between two points, we must find the difference between the , , and elements of the points.
That is, for any point and , the distance is the vector .
Subbing in our original points and , we get:
Example Question #69 : Vectors
What is the vector form of ?
In order to derive the vector form, we must map the , , -coordinates to their corresponding , , and coefficients.
That is, given , the vector form is .
So for , we can derive the vector form .
Example Question #63 : Vector
Given points and , what is the vector form of the distance between the points?
In order to derive the vector form of the distance between two points, we must find the difference between the , , and elements of the points.
That is, for any point and , the distance is the vector .
Subbing in our original points and , we get:
Example Question #444 : Gre Subject Test: Math
Given points and , what is the vector form of the distance between the points?
In order to derive the vector form of the distance between two points, we must find the difference between the , , and elements of the points.
That is, for any point and , the distance is the vector .
Subbing in our original points and , we get:
Example Question #64 : Vector Form
Given points and , what is the vector form of the distance between the points?
In order to derive the vector form of the distance between two points, we must find the difference between the , , and elements of the points. That is, for any point and , the distance is the vector .
Subbing in our original points and , we get: