All Calculus 2 Resources
Example Questions
Example Question #1 : Polar Form
What would be the equation of the parabola in polar form?
We know and .
Subbing that in to the equation will give us .
Multiplying both sides by gives us
.
Example Question #1 : Polar Form
A point in polar form is given as .
Find its corresponding coordinate.
To go from polar form to cartesion coordinates, use the following two relations.
In this case, our is and our is .
Plugging those into our relations we get
,
which gives us our coordinate.
Example Question #1 : Polar Form
What is the magnitude and angle (in radians) of the following cartesian coordinate?
Give the answer in the format below.
Although not explicitly stated, the problem is asking for the polar coordinates of the point . To calculate the magnitude, , calculate the following:
To calculate , do the following:
in radians. (The problem asks for radians)
Example Question #1 : Polar Form
What is the following coordinate in polar form?
Provide the angle in degrees.
To calculate the polar coordinate, use
However, keep track of the angle here. 68 degree is the mathematical equivalent of the expression, but we know the point (-2,-5) is in the 3rd quadrant, so we have to add 180 to it to get 248.
Some calculators might already have provided you with the correct answer.
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Example Question #201 : Ap Calculus Bc
What is the equation in polar form?
We can convert from rectangular form to polar form by using the following identities: and . Given , then .
. Dividing both sides by ,
Example Question #3 : Polar Form
What is the equation in polar form?
None of the above
We can convert from rectangular form to polar form by using the following identities: and . Given , then . Multiplying both sides by ,
Example Question #5 : Polar Form
What is the equation in polar form?
None of the above
We can convert from rectangular form to polar form by using the following identities: and . Given , then . Simplifying accordingly,
Example Question #6 : Polar Form
Given and , what is in terms of (rectangular form)?
Knowing that and , we can isolate in both equations as follows:
Since both of these equations equal , we can set them equal to each other:
Example Question #4 : Polar Form
Convert the following function into polar form:
The following formulas were used to convert the function from polar to Cartestian coordinates:
Note that the last formula is a manipulation of a trignometric identity.
Simply replace these with x and y in the original function.
Example Question #1 : Polar Form
Convert from rectangular to polar form:
To convert from rectangular to polar form, we must use the following formulas:
It is easier to find our angle first, which is done by plugging in our x and y into the second formula:
Find the angle by taking the inverse of the function:
Now find r by plugging in our angle and x and y into the first formula, and solving for r:
Our final answer is reported in polar coordinate form :
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