Call Now to Set Up Tutoring:

(888) 888-0446

Calculus 1 : Acceleration

Study concepts, example questions & explanations for Calculus 1

Create An Account

All Calculus 1 Resources

10 Diagnostic Tests 438 Practice Tests Question of the Day Flashcards Learn by Concept

Example Questions

Example Question #241 : Acceleration

Find the acceleration at t=1 given the following velocity equation.

v(t)=2t^3-8t^2+14t-2

Possible Answers:

Correct answer:

Explanation:

To solve, simply differentiate v(t) using the power rule to find a(t) . Then plug in for .

Recall the power rule:

f(x)=x^n

$f'(x)=nx^{n-1}$

Apply this to get

a(t)=v'(t)=6t^2-16t+14

a(1)=6(1)^2-16(1)+14=4

Report an Error

Example Question #241 : How To Find Acceleration

Find the acceleration at t=1 given the following velocity function.

v(t)=t^2+4t+2

Possible Answers:

Correct answer:

Explanation:

To solve, simply differentiate using the power rule and then plug in t=1 . Recall the power rule:

f(x)=x^n

$f'(x)=nx^{n-1}$

Thus,

a(t)=v'(t)=2t+4

a(1)=2(1)+4=6

Report an Error

Example Question #242 : How To Find Acceleration

The position of a particle is given by the function p(t)=7t^3+2t^2+4t+17 . Find the acceleration of the particle at time t=1.8

Possible Answers:

43.4

104.6

83.4

79.6

112.2

Correct answer:

79.6

Explanation:

Acceleration of a particle can be found by taking the derivative of the velocity function with respect to time. Recall that a derivative gives the rate of change of some parameter, relative to the change of some other variable. When we take the derivative of velocity with respect to time, we are evaluating how velocity changes over time; i.e acceleration! This is just like finding velocity by taking the derivative of the position function.

$a(t)=\frac{d}{dt}v(t)$

$v(t)=\frac{d}{dt}p(t)$

For p(t)=7t^3+2t^2+4t+17

Using the above properties, the velocity function is

v(t)=21t^2+4t+4

And the acceleration function is

a(t)=42t+4

At time t=1.8

a(1.8)=42(1.8)+4

a(1.8)=79.6

Report an Error

Example Question #631 : Spatial Calculus

The position of a particle is given by the function $p(t)=\tan(t)+\cos(t)$ . What is the acceleration of the particle at time t=4 ?

Possible Answers:

-1.02

4.11

6.07

7.23

3.53

Correct answer:

6.07

Explanation:

$a(t)=\frac{d}{dt}v(t)$

$v(t)=\frac{d}{dt}p(t)$

To take the derivative of the function

$p(t)=\tan(t)+\cos(t)$

We'll need to make use of the following derivative rule(s):

Trigonometric derivative:

$d[\sin(u)]=\cos(u)du$

$d[\cos(u)]=-\sin(u)du$

$d[\tan(u)]=\frac{du}{\cos^2(u)}$

Quotient rule: $d[\frac{u}{v}]=\frac{vdu-udv}{v^2}$

Note that u and v may represent large functions, and not just individual variables!

Using the above properties, the velocity function is

$v(t)=\frac{1}{\cos^2(t)}-\sin(t)$

And the acceleration function is

$a(t)=\frac{2\tan(t)}{\cos^2(t)}-\cos(t)$

At time t=4

$a(4)=\frac{2\tan(4)}{\cos^2(4)}-\cos(4)$

a(4)=6.07

Report an Error

Example Question #244 : How To Find Acceleration

The position of a particle is given by the function $p(t)=\tan(t^3)$ . Derive a function for the particle's acceleration.

Possible Answers:

$\frac{4(3t^4tan(t^3)+t)}{tan(2t^3)+1}$

$\frac{12(3t^4tan(t^3)+t)}{cos(2t^3)+1}$

$\frac{42(3t^4cos(t^3)+t)}{tan(2t^3)+1}$

$\frac{6(3t^4tan(t^3)+t)}{cos(2t^3)+1}$

$\frac{12(3t^4tan(t^3)+t)}{tan(2t^3)+1}$

Correct answer:

$\frac{12(3t^4tan(t^3)+t)}{cos(2t^3)+1}$

Explanation:

$a(t)=\frac{d}{dt}v(t)$

$v(t)=\frac{d}{dt}p(t)$

To take the derivative of the function

$p(t)=\tan(t^3)$

We'll need to make use of the following derivative rule(s):

Trigonometric derivative:

$d[\cos(u)]=-\sin(u)du$

$d[\tan(u)]=\frac{du}{\cos^2(u)}$

Quotient rule: $d[\frac{u}{v}]=\frac{vdu-udv}{v^2}$

Note that u and v may represent large functions, and not just individual variables!

Using the above properties, the velocity function is

$v(t)=\frac{3t^2}{\cos^2(t^3)}$

And the acceleration function is

$a(t)=\frac{12(3t^4\tan(t^3)+t)}{\cos(2t^3)+1}$

Report an Error

Example Question #243 : How To Find Acceleration

A bug moves with the following position equation:

$s(t)=t^4+\cos(t)+5$

What is the bug's initial acceleration?

Possible Answers:

Correct answer:

Explanation:

To find the bug's initial acceleration, we must find the accleration function, which is the second derivative of the position function:

$s'(t)=v(t)=4t^3-\sin(t)$

$s''(t)=a(t)=12t^2-\cos(t)$

The following rules were used to find the derivatives:
$\frac{\mathrm{d} }{\mathrm{d} x} x^n=nx^{n-1}$ , $\frac{\mathrm{d} }{\mathrm{d} x} \cos(x)=-\sin(x)$ , $\frac{\mathrm{d} }{\mathrm{d} x} \sin(x)=\cos(x)$

Finally, since we were asked about the bug's initial acceleration, we simply plug in t=0 into the acceleration function:

a(0)=-1

Report an Error

Example Question #244 : How To Find Acceleration

What is the acceleration function if the position function is x(t)=3x^3-2x^2+4x-1 ?

Possible Answers:

a(t)=x-4

a(t)=18x-6

a(t)=8x-4

a(t)=18x-4

a(t)=18x+4

Correct answer:

a(t)=18x-4

Explanation:

To find the acceleration function, you have to first find the velocity function, which means taking the derivative of the position function. To take the derivative of a function, multiply the exponent by the coefficient in front of an and then subtract the exponent by . Therefore, the velocity function is: v(t)=9x^2-4x+4 . Then, to find the acceleration, take the derivative of the velocity function. Therefore, your answer is: a(t)=18x-4

Report an Error

Example Question #244 : How To Find Acceleration

What is the acceleration function if x(t)=2x^2-3x+4 ?

Possible Answers:

a(t)=4x

a(t)=-4

a(t)=4+x

a(t)=4

a(t)=4-x

Correct answer:

a(t)=4

Explanation:

The first step here is to find the velocity function. To do that, you must find the derivative of the position function. Remember, when taking the derivative, multiply the exponent by the coefficient in front of the term and then subtract one from the exponent. Therefore, the velocity function is: v(t)=4x-3 . Then, to find the acceleration function, take the derivative of velocity. The answer is then: a(t)=4 .

Report an Error

Example Question #245 : How To Find Acceleration

$f(x)=3x^{3}+x-12$

What is the acceleration of an object moving in plane at x=2 ?

Possible Answers:

Correct answer:

Explanation:

In order to find the acceration of an object in a plane at any give point , you must first differentiate the first derivative.

In this case, the first derivative is: f'(x)=6x+1

When you differentiate the first derivative, you get the second derivative: f''(x)= 6

Therefore, the correct answer is .

Report an Error

Example Question #246 : How To Find Acceleration

$f(x)=x^{4}+3x^{2}-x$

Using the function above, what is the acceleration of an object moving in plane at x=4 ?

Possible Answers:

200

198

280

279

190

Correct answer:

198

Explanation:

In order to find the acceration of an object in a plane at any give point , you must first differentiate the first derivative.

In this case, the first derivative is: $f'(x)=4x^{3}+6x-1$

When you differentiate the first derivative, you get the second derivative: f''(x)= 12x^2+6

This is the function that gives you the acceleration of an object vector at point .

You plug x=4 into the second derivative and therefore, the correct answer is 198 .

Report an Error

View Calculus Tutors

Michael
Certified Tutor

Harvard University, Bachelor in Arts, Physics.

View Calculus Tutors

Sumit
Certified Tutor

Calcutta University, Bachelor of Science, Mathematics. Indian Statistical Institute, Master of Science, Mathematics.

View Calculus Tutors

Noah
Certified Tutor

Vanderbilt University, Bachelor of Science, Biochemistry.

All Calculus 1 Resources

10 Diagnostic Tests 438 Practice Tests Question of the Day Flashcards Learn by Concept

Popular Subjects

Computer Science Tutors in San Francisco-Bay Area, GRE Tutors in San Diego, Physics Tutors in Phoenix, Algebra Tutors in Seattle, Chemistry Tutors in Houston, Biology Tutors in Philadelphia, Spanish Tutors in Los Angeles, Reading Tutors in Los Angeles, Computer Science Tutors in Miami, LSAT Tutors in New York City

Popular Courses & Classes

GMAT Courses & Classes in Houston, MCAT Courses & Classes in Boston, Spanish Courses & Classes in Houston, GRE Courses & Classes in Phoenix, GMAT Courses & Classes in Denver, ACT Courses & Classes in Los Angeles, ISEE Courses & Classes in Dallas Fort Worth, GMAT Courses & Classes in New York City, Spanish Courses & Classes in Los Angeles, ACT Courses & Classes in San Francisco-Bay Area

Popular Test Prep

MCAT Test Prep in Seattle, GMAT Test Prep in Denver, ACT Test Prep in Los Angeles, ISEE Test Prep in Philadelphia, MCAT Test Prep in New York City, ISEE Test Prep in New York City, LSAT Test Prep in Dallas Fort Worth, SAT Test Prep in Philadelphia, MCAT Test Prep in San Diego, SAT Test Prep in Chicago

DMCA Complaint

If you believe that content available by means of the Website (as defined in our Terms of Service) infringes one or more of your copyrights, please notify us by providing a written notice (“Infringement Notice”) containing the information described below to the designated agent listed below. If Varsity Tutors takes action in response to an Infringement Notice, it will make a good faith attempt to contact the party that made such content available by means of the most recent email address, if any, provided by such party to Varsity Tutors.

Your Infringement Notice may be forwarded to the party that made the content available or to third parties such as ChillingEffects.org.

Please be advised that you will be liable for damages (including costs and attorneys’ fees) if you materially misrepresent that a product or activity is infringing your copyrights. Thus, if you are not sure content located on or linked-to by the Website infringes your copyright, you should consider first contacting an attorney.

Please follow these steps to file a notice:

You must include the following:

A physical or electronic signature of the copyright owner or a person authorized to act on their behalf; An identification of the copyright claimed to have been infringed; A description of the nature and exact location of the content that you claim to infringe your copyright, in \ sufficient detail to permit Varsity Tutors to find and positively identify that content; for example we require a link to the specific question (not just the name of the question) that contains the content and a description of which specific portion of the question – an image, a link, the text, etc – your complaint refers to; Your name, address, telephone number and email address; and A statement by you: (a) that you believe in good faith that the use of the content that you claim to infringe your copyright is not authorized by law, or by the copyright owner or such owner’s agent; (b) that all of the information contained in your Infringement Notice is accurate, and (c) under penalty of perjury, that you are either the copyright owner or a person authorized to act on their behalf.

Send your complaint to our designated agent at:

Charles Cohn Varsity Tutors LLC
101 S. Hanley Rd, Suite 300
St. Louis, MO 63105

Or fill out the form below:

Do not fill in this field

Contact Information

* Full legal name

Company name

* Phone number

* Email address

Address

* Address1

Address2

* City

* State

* Zipcode

* Country

Complaint Details

* URL of copyrighted work (where your original material is located)

* Please describe the copyrighted work so that it may be easily identified

I am the owner, or an agent authorized to act on behalf of the owner of an exclusive right that is allegedly infringed.

I have a good faith belief that the use of the material in the manner complained of is not authorized by the copyright owner, its agent, or the law.

This notification is accurate.

I acknowledge that there may be adverse legal consequences for making false or bad faith allegations of copyright infringement by using this process.

* Signature (your digital signature is legally binding)

HIGH SCHOOL

GRADUATE SCHOOL

K-8

Search 50+ Tests

math tutoring

science tutoring

foreign languages

elementary tutoring

other

Search 350+ Subjects

Calculus 1 : Acceleration

Study concepts, example questions & explanations for Calculus 1

All Calculus 1 Resources

Example Questions

Example Question #241 : Acceleration

Example Question #241 : How To Find Acceleration

Example Question #242 : How To Find Acceleration

Example Question #631 : Spatial Calculus

Example Question #244 : How To Find Acceleration

Example Question #243 : How To Find Acceleration

Example Question #244 : How To Find Acceleration

Example Question #244 : How To Find Acceleration

Example Question #245 : How To Find Acceleration

Example Question #246 : How To Find Acceleration

All Calculus 1 Resources

Report an issue with this question

DMCA Complaint

Contact Information

Address

Complaint Details

Email address:
Your name:
Feedback: