Calculus AB : Calculus AB

Study concepts, example questions & explanations for Calculus AB

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Example Questions

Example Question #1 : Define Continuity At A Point And Over An Interval

Which of the following is the correct definition of continuity?

Possible Answers:

A function   is continuous at  if 

A function   is continuous at  if 

A function  is continuous at  if 

A function   is continuous at  if 

Correct answer:

A function  is continuous at  if 

Explanation:

A function is a continuous function on an interval if it is continuous at each and every point on that interval.  You are able to check and see if a function is continuous at certain points using the definition of continuity:

A function  is continuous at  if 

 

This definition assumes that both  and  exist.  If either of these do not exist or the if , then the function  is not continuous at point  and the function is not a continuous function on any interval containing .

Example Question #1 : Define Continuity At A Point And Over An Interval

The following function is graphed below.  Based on the graph, is the function  continuous on the interval ?

Q2 graph 1

Possible Answers:

Yes,  is a continuous function on this interval

No,  is not a continuous function on this interval

There is not enough information to answer this question

Correct answer:

No,  is not a continuous function on this interval

Explanation:

From the graph we see that at  there is a hole in the graph.  This means that the function is not continuous there, this type of discontinuity is called removable discontinuity.

Example Question #2 : Define Continuity At A Point And Over An Interval

Determine if the following function is continuous on the interval .

Possible Answers:

No the function is not continuous on the given interval

There is not enough information given

Yes, this function is continuous on the given interval

Correct answer:

No the function is not continuous on the given interval

Explanation:

It is important to note that rational functions are continuous everywhere except for the points where their denominator is equal to zero.  So to find the points of discontinuity we set the denominator equal to zero and solve for .

 

 

                            (factoring)

 

Since this factors into  we only need to set  equal to zero to solve.

 

 

 

So this function is continuous everywhere except for .  We are trying to determine whether this function is continuous on the given interval  since  is in this interval, then the function is not continuous in the given interval.

Example Question #3 : Define Continuity At A Point And Over An Interval

Using limits, determine whether the following function is continuous at .

Possible Answers:

Yes,  is continuous at 

No,  is not continuous at  

There is not enough information given

Correct answer:

Yes,  is continuous at 

Explanation:

We must use our definition of continuity:

 is continuous at  if 

 

Now we will use this definition and work through the limit as  approaches .

 

 

Now let’s check 

 

 

So  and therefore this function is continuous at  .

Example Question #2 : Define Continuity At A Point And Over An Interval

True or False: The function  is continuous everywhere.

Possible Answers:

False

True

Correct answer:

False

Explanation:

It helps if we plot this function to see what is happening.

Q5 graph

 

So we see that when  the graph of the function stays at , but when  then the function of the graph is equal to .  Even though there is a solution for , the limit does not exist.  This is called jump discontinuity, where the graph of a function (also the function itself but it is easier to consider the graph) jumps from one solution to another with a break in the graph.

Example Question #5 : Define Continuity At A Point And Over An Interval

Using limits, determine if the following function is continuous at .

Possible Answers:

Yes,  is continuous at 

No,  is not continuous at 

Correct answer:

Yes,  is continuous at 

Explanation:

We must use our definition of continuity:  is continuous at  if 

 

Now we solve for the limit as  approaches  and we will solve for .

 

 

Now we will solve for 

 


And so  meaning that this function is continuous at .

Example Question #6 : Define Continuity At A Point And Over An Interval

Which of the following is the correct answer for the condition(s) of continuity

Possible Answers:

 is defined at point 

 is defined at point  and  exists

 is defined at point ,  exists, and 

 exists

Correct answer:

 is defined at point ,  exists, and 

Explanation:

We know that from the definition of continuity  must be defined (i.e. exist) at point  in order for a limit to be equal to  and the limit must also exist in order to be equal to .

Example Question #3 : Define Continuity At A Point And Over An Interval

True or False: A function can be continuous from the right continuous but not left continuous at a certain point.

Possible Answers:

False

True

Correct answer:

True

Explanation:

A function is continuous from the right if  and a function is continuous from the left if .  Take the graphed function below for example:

Q8 graph

 

We would say that this function is right continuous at  because this is where the jump discontinuity occurs and the point  is included when approached from the right but not from the left.

Example Question #4 : Define Continuity At A Point And Over An Interval

True or False: All polynomials are continuous everywhere on the real number line (not including polynomials within a rational function).

Possible Answers:

True

False

Correct answer:

True

Explanation:

This is true.  Take the binomial  for example.  This function’s domain is defined on the entire real number line so it is defined at each point of the real numbers as well.  A limit exists for this function at any point and there are no breaks or jumps within this function.  So all polynomials are continuous at all real numbers.

Example Question #9 : Define Continuity At A Point And Over An Interval

Where is  discontinuous at?  Solve in radians.

Possible Answers:

 and 

 and  where 

 and 

 and 

Correct answer:

 and  where 

Explanation:

We know that all rational functions are continuous everywhere except for when the denominator is equal to .  So we will begin by setting the denominator equal to  and solving for .

 

 

But this only gives us a solution between  and .  So we must also consider .  We know that each of these solutions will also have discontinuities at them for each rotation of a circle which is .  So the function is discontinuous at:

 

 where 

 where 

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