Calculus 1 : Lines

Study concepts, example questions & explanations for Calculus 1

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Example Questions

Example Question #1 : Length Of Line

Consider a function  with first-derivative:

.

Which integral can calculate the length along this curve between  and ?

 

Possible Answers:

This is not possible with the information given.

Correct answer:

Explanation:

To determine the length of a curve between two points, we evaluate the integral

There are many reasons this works, but we'll give an informal explanation here:Canvas2

If we divide this curve into three line-segments, we can see that they become more and more similar to the original curve. By adding up all the little hypotenuses, we can arrive at the length of the curve. Note, that

If we think of the integration symbol as a sum of infinitely small parts, this gets us the formula for length:

.

Returning to the problem, we plug the derivative into the length formula:

substitute:

Simplify:

By trigonometric identities we get:

Example Question #2 : Length Of Line

Find the length of the line segment between points A and B:

 

Possible Answers:

Correct answer:

Explanation:

The distance between two points can be easily found using the Distance Formula:

Applying the points we are given to this formula results in:

This is one of the answer choices.

Example Question #1 : Equation Of Line

What is the equation of the line tangent to f(x) = 4x3 – 2x2 + 4 at x = 5?

Possible Answers:

None of the other answers

y = 85x + 24

y = 280x – 946

y = 44x + 245

y = 220x – 550

Correct answer:

y = 280x – 946

Explanation:

First, take the derivative of f(x). This is very easy:

f'(x) = 12x2 – 4x

Now, the slope of the tangent line at x = 5 is f'(5). Evaluated, this is: f'(5) = 12 * 5 * 5 – 4 * 5 = 300 – 20 = 280

Now, we must find the intersection point on the original line:

f(5) = 4 * 53 – 2 * 52 + 4 = 500 – 50 + 4 = 454

Therefore, the point of tangent intersection is (5,454).

Using the point-slope form of linear equations, we can find the line:

(y – 454) = 280(x – 5)

y – 454 = 280x – 1400

y = 280x – 946

Example Question #2 : Equation Of Line

Find the equation of the line tangent to  at the point .

Possible Answers:

Correct answer:

Explanation:

The equation of the tangent line will have the form , where  is the slope of the line and .  

To find the slope, we need to evaluate the derivative at :

 

Now that we have the slope, we can determine the equation of the tangent line using the point-slope formula:

 

Example Question #1 : Equation Of Line

Find the equation of the line tangent to  at .

Possible Answers:

Correct answer:

Explanation:

To find the equation of the line at that point, you need two things: the slope at that point and the y adjustment of the function, in the form , where m is the slope and  is the y adjustment. To get the slope, find the derivative of  and plug in the desired point  for , giving us an answer of  for the slope.

To find the y adjustment pick a point 0 in the original function. For simplicity, let's plug in , which gives us a y of 1, so an easy point is . Next plug in those values into the equation of a line, . The new equation with all parameters plugged in is

Now you simply solve for , which is .

Final equation of the line tangent to  at  is 

Example Question #3 : Equation Of Line

Find the equation of the line tangent to  at .

Possible Answers:

Correct answer:

Explanation:

To get the slope, find the derivative of  and plug in the desired point  for , giving us an answer of  for the slope.

Remember that the derivative of .

 

To find the  adjustment pick a point  (for example) in the original  function. For simplicity, let's plug in , which gives us a  of , so an easy point is . Next plug in those values into the equation of a line, . The new equation with all parameters plugged in is

The coefficient in front of the  is the slope.

Now you simply solve for , which is .

Final equation of the line tangent to  at is .

Example Question #231 : Graphing Functions

Find the equation of the line tangent to  at  .

Possible Answers:

Correct answer:

Explanation:

The equation of the tangent line is  To find , the slope, calculate the derivative and plug in the desired point.

The next step is to choose a coordinate on the original  function. We can choose any  value and calculate its  value.

Let's choose .

The  value at this point is .

Plugging in those values we can solve for .

Solving for  we get =.

Example Question #3 : Equation Of Line

A function, , is given by

.

Find the line tangent to  at .

Possible Answers:

Correct answer:

Explanation:

First we need to find the slope of  at . To do this we need the derivative of . To take the derivative we need to use the power rule for the first term and recognize that the derivative of sine is cosine.

At,

 

Now we need to know

.

Now we have a slope,  and a point 

so we can use the point-slope formula to find the equation of the line.

Plugging in and rearranging we find

.

Example Question #5 : Equation Of Line

Let 

Find the equation for a line tangent to  when .

Possible Answers:

Correct answer:

Explanation:

First, evaluate  when .

Thus, we need a line that contains the point 

Next, find the derivative of  and evaluate it at .

To find the derivative we will use the power rule,

.

This indicates that we need a line with a slope of 8.

In point-slope form, , a line with the point  and a slope of 8 will be:

Example Question #4 : Equation Of Line

What is the equation of the line tangent to  at ? Round to the nearest hundreth. 

Possible Answers:

Correct answer:

Explanation:

The tangent line to  at  must have the same slope as .

Applying the chain rule we get

.

Therefore the slope of the line is, 

.

In addition, the tangent line touches the graph of  at . Since , the point  lies on the line.

Plugging in the slope and point we get .

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