Question

5. What is the acceleration of the object in the graph? point) (m/s) 14- 12 10 8 6 4 2 0 2 4 68 10 12 14 16 18 t(S) O-0.8 m/s O 1.25 m/s -1.25 m/s2 0-0.4 m/s9. In the equatiox2+2a, (x-Xo), what do the terms vor , and xo stand for1 point,) respectively? O velocity at position x, velocity at time t = 0, position x, and position at time t = 0 velocity at position r, velocity at position.r -0, position x, and the original position original velocity, velocity at position x = 0, position x, and the original position original velocity, zero velocity, original position, and the zero position 10. An airplane travels 330 m down the runway before taking off. Assuming that it has constant (1 point) acceleration, if it starts from rest and becomes airborne in 9.00 s, how fast (in m/s) is it moving at takeoff? 1490 m/s 36.7 m/s 73.3 m/s 660 m/

0 0
Add a comment Improve this question Transcribed image text
Answer #1

Alright Dude, If that worked for you... dont forget to give THUMBS UP.(that will work for me!)

If I missed something feel free to leave a comment.
atleast before giving downvote.
and, Thanks for using homeworklib- Smarter way to study.

Add a comment
Know the answer?
Add Answer to:
5. What is the acceleration of the object in the graph? point) (m/s) 14- 12 10...
Your Answer:

Post as a guest

Your Name:

What's your source?

Earn Coins

Coins can be redeemed for fabulous gifts.

Not the answer you're looking for? Ask your own homework help question. Our experts will answer your question WITHIN MINUTES for Free.
Similar Homework Help Questions
  • I dont understand how we get the position and velocity vector for b. Also, I think we need the initial velocity to solve...

    I dont understand how we get the position and velocity vector for b. Also, I think we need the initial velocity to solve for part a but it is not given and it cannot be zero since the jet is being catapulted. 32. A Lockheed Martin F-35 II Lighting jet takes off from an aircraft carrier with a runway length of 90 m and a takeoff speed 70 m/s at the end of the runway. Jets are catapulted into airspace...

  • Please show answer using MATLAB Time, t(s) 0 2 4 6 8 10 12 14 16...

    Please show answer using MATLAB Time, t(s) 0 2 4 6 8 10 12 14 16 Position, x(m) 0 0.7 1.8 3.4 5.1 6.3 7.3 8.0 8.4 To find the velocity at all times using the two-point differencing formula (and where appropriate the three-point forward or backward differencing formulae), these should yield the results correct to O(h2) To find the acceleration at all times using the three-point central differencing formula (and where appropriate the four-point forward or backward differencing formulae),...

  • An object moving in the *x direction experience an acceleration of *2.0 m/s^2- This mean the...

    An object moving in the *x direction experience an acceleration of *2.0 m/s^2- This mean the object is increasing its velocity by 2.0 m/s every second. travels 2.0 m In every second. is traveling at 2.0 m/s. is decreasing its velocity by 2.0 m/s every second. Suppose that an object is moving with a constant velocity. Which statement concerning Its acceleration must be correct? The acceleration is constantly increasing. The acceleration is a constant non-zero value. The acceleration is constantly...

  • (1) An object moves with constant acceleration 3.26 m/s and over a time interval reaches a...

    (1) An object moves with constant acceleration 3.26 m/s and over a time interval reaches a final velocity of 10.8 m/s. a. If its initial velocity 5.39 m/s, what is its displacement during the time interval? Submit Answer Tries 0/10 b. What is the distance it travels during this interval? Submit Answer Tries 0/10 c. If its initial velocity is -5.39 m/s, what is its displacement during the time interval? Submit Answer Tries 0/10 d. What is the total distance...

  • An object travels with a constant acceleration for 10 s. The vectors in the figure represent...

    An object travels with a constant acceleration for 10 s. The vectors in the figure represent the final and initial velocities Move the endpoints of the lines in the plots to graph the x- component of the velocity versus time, the y-component of the velocity versus time, and the y-component of the acceleration versus time. 20 m/s 30° Velocity vs. time 18 16 30° 7 12 10 4 20 m/s 2 -4 -6 -8 -10 -12 -14 Velocity vs. time...

  • An object moves with constant acceleration. At t = 2.50 s, the position of the object is x = 2.00 m and its velocity is v = 4.50 m/s. At t = 7.00 s, v = -12.0 m/s. Find: (a) the position and the velocity at t = 0; (b) the average speed from 2.50 s to 7.00

    An object moves with constant acceleration. At t = 2.50 s, the position of the object is x = 2.00 m and its velocity is v = 4.50 m/s. At t = 7.00 s, v = -12.0 m/s. Find: (a) the position and the velocity at t = 0; (b) the average speed from 2.50 s to 7.00 s, and (c) the average velocity from 2.50 s to 7.00 s.

  • PHY 203 Introduction to Physics NAME: (5.1) A particle has constant acceleration a0 = −4 m/s...

    PHY 203 Introduction to Physics NAME: (5.1) A particle has constant acceleration a0 = −4 m/s 2. It is at rest at x0 = 128 m at t = 0 s. (a) (i) Determine the velocity of the particle at t = 2 s. (ii) Determine the position of the particle at t = 2 s. (b) (i) Determine the velocity of the particle at t = 4 s. (ii) Determine the position of the particle at t = 4...

  • An object travels with a constant acceleration for 10 s The vectors in the figure represent...

    An object travels with a constant acceleration for 10 s The vectors in the figure represent the final and initial velocities. Move the endpoints of the lines in the plots to graph the x-component of the velocity versus time, the y- component of the velocity versus time, and the y- component of the acceleration versus time 20 m/s Velocity vs. time 18 30 12 10 20 m/s 2 -6 -8 -10 -12 -14 -18 0 1234 5 6 78 9...

  • x (m) 10- 4- B → t(s) 0 1 23 45 6 (1 point) 1.8 m/s...

    x (m) 10- 4- B → t(s) 0 1 23 45 6 (1 point) 1.8 m/s 1.0 m/s 1.5 m/s 0.67 m/s 8. What is the instantaneous velocity at1 h? x(km) 수 50 40B 30 20 10- t (h) 0 2 4 68 10 O 3 km/h 0.2 km/h 15 km/h O 30 km/h 10. A person is walking briskly in a straight line. The figure shows a graph of the person's position (1 point) as a function of time...

  • 2. A particle has a constant acceleration of ?⃗ = (6.0 m s 2 ⁄ )?̂...

    2. A particle has a constant acceleration of ?⃗ = (6.0 m s 2 ⁄ )?̂ + (4.0 m s 2 ⁄ )?. At ̂ ? = 0, the velocity is zero and the position vector is ?⃗ 0 = (10 m)?̂. (a) Find the velocity and position vectors as a function of time ?. b)Find the equation of the particle’s path in the xy plane and sketch the path.

ADVERTISEMENT
Free Homework Help App
Download From Google Play
Scan Your Homework
to Get Instant Free Answers
Need Online Homework Help?
Ask a Question
Get Answers For Free
Most questions answered within 3 hours.
ADVERTISEMENT
ADVERTISEMENT