All Calculus 2 Resources
Example Questions
Example Question #81 : Parametric, Polar, And Vector
Find dy/dx at the point corresponding to the given value of the parameter without eliminating the parameter:
The formula for dy/dx for parametric equations is given as:
From the problem statement:
If we plug in t=4, into the above equations:
This is one of the answer choices.
Example Question #6 : Parametric, Polar, And Vector Functions
Find dy/dx at the point corresponding to the given value of the parameter without eliminating the parameter:
The formula for dy/dx for parametric equations is given as:
From the problem statement:
If we plug these into the above equation we end up with:
If we plug in our given value for t, we end up with:
This is one of the answer choices.
Example Question #81 : Parametric, Polar, And Vector
Convert the following parametric equation into rectangular form:
To convert from parametric to rectangular form, we must eliminate the parameter by finding t in terms of x or y:
Now, plug t into the equation for y:
Example Question #591 : Calculus Ii
Given and , what is in terms of ?
None of the above
Given and , let's solve both equations for :
Since both equations equal , let's set them equal to each other and solve for :
Example Question #82 : Parametric, Polar, And Vector
What is a way of parameterizing the circle ? (Assume ) There are many ways of doing this.
,
,
,
,
,
To see why the parametric equations
,
describe the circle
we do the following manipulation:
which means
or
which describes the circle of radius .
Example Question #85 : Parametric, Polar, And Vector
What is not a way of parameterizing the ellipse
(Assume )
The reason that the parametric equations
don't describe the ellipse
is because if do some algebraic manipulation, we get
which describes a different ellipse than
.
Example Question #86 : Parametric, Polar, And Vector
Which of the following set of parametric equations parametrizes a section of parabola
? (Assume )
We can see that the parametric equations
describe a section of the parabola
because if do some manipulations of the parametric equations, we get
So then we get
which describes part of the parabola
.
Example Question #601 : Calculus Ii
Which of the following parametric equations parametrizes an ellipse? (Assume that )
The parametric equations
describe an ellipse because we have
which means
which is the equation for an ellipse.
Example Question #81 : Parametric, Polar, And Vector
Given and , what is in terms of (rectangular form)?
None of the above
Given and , et's solve both equations for :
Since both equations equal , let's set them equal to each other and solve for :
Example Question #603 : Calculus Ii
Given and , what is in terms of (rectangular form)?
None of the above
Given and , let's solve both equations for :
Since both equations equal , let's set them equal to each other and solve for :
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