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Example Questions
Example Question #11 : Derivatives Of Parametrics
Find the derivative of the following parametric function at :
,
The derivative of a parametric function is given by the following:
So, we must find the derivative of each function at the t given:
,
The derivatives were found using the following rules:
, ,
,
Next, plug in the given into each derivative function:
,
Finally, divide to get a final answer of .
Example Question #21 : Derivatives Of Parametrics
Find for the following set of parametric equations for .
Does not Exist
Finding of a parametric equation can be given by this formula:
.
So we must find and for when .
and and so
.
When you plug in you get your answer .
Example Question #133 : Parametric, Polar, And Vector
Find the derivative of the following parametric equation
Does not exist
This parametric equation is described as the sum of three vectors. To find the derivative of a parametric equation, you must find the derivative of each vector, or if
then
The derivative of the first vector is found using the power rule,
where is a constant.
The derivative of the second vector is found using the natural logarithm rule,
.
The derivative of the third vector is found using one of the trigonmetric rules,
.
In this case:
Example Question #134 : Parametric, Polar, And Vector
Find the derivative of the following parametric equation
Does not exist
This parametric equation is described as the sum of three vectors. To find the derivative of a parametric equation, you must find the derivative of each vector, or if
, then
The derivative of the first vector is found using the power rule,
.
The derivative of the second vector is found using the exponential rule,
.
The derivative of the third vector is found using one of the trigonmetric rules,
, where is a constant.
In this case:
Example Question #135 : Parametric, Polar, And Vector
Find the derivative of the following parametric equation
Does not exist
This parametric equation is described as the sum of three vectors. To find the derivative of a parametric equation, you must find the derivative of each vector, or if
, then
The derivative of the first and second vectors are found using the following trigonometric rules,
and ,
where and are constants.
In this case:
Example Question #22 : Derivatives Of Parametrics
Find when and .
If and , then we can use the chain rule to define as
.
We then use the following trigonometric rules,
and ,
where and are constants.
In this case:
,
and
,
therefore
.
Example Question #1 : Parametric Calculations
Calculate the length of the curve drawn out by the vector function from .
None of the other answers.
The formula for arc length of a parametric curve in space is for .
Taking derivatives of each of the vector function components and substituting the values into this formula gives
We need to recognize that underneath the square root we have a perfect square, and we can write it as
Solving this we get
Example Question #2 : Parametric Calculations
Calculate at the point on the curve defined by the parametric equations
,
None of the other answers
None of the other answers
The correct answer is .
We use the equation
But we need a value for to substitute into our derivative. We can obtain such a by setting as our given point suggests.
Since our values of match, is our correcct value. Substituting this into the derivative and simplifying gives us our answer of
Example Question #3 : Parametric Calculations
Which of the answers below is the equation obtained by eliminating the parametric from the following set of parametric equations?
When the problem asks us to eliminate the parametric, that means we want to somehow get rid of our variable t and be left with an equation that is only in terms of x and y. While the equation for x is a polynomial, making it more difficult to solve for t, we can see that the equation for y can easily be solved for t:
Now that we have an expression for t that is only in terms of y, we can plug this into our equation for x and simplify, and we will be left with an equation that is only in terms of x and y:
Example Question #131 : Parametric
Suppose and . Find the arc length from .
Write the arc length formula for parametric curves.
Find the derivatives. The bounds are given in the problem statement.
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