1. The particle's graph of velocity xO along x-direction is shown in the picture. Find: (a)...
1. The particle's graph of velocity v(t) along x-direction is shown in the picture. During the [b-el interval of time, what are the particle's (a) acceleration, (b) average velocity, (c) and displacement? (Be sure to include the correct signs) 20 15 10 Write the entire solution here, cirle the asnwers, and also enter the answers on the front page (they are already there for this test) Time 40 -10
Consider two displacement vectors for an object along the horizontal direction, x_0 - 2 sec = 3 meters to the right and then x_2 - 5 sec = 5 meters to the left. Given that the object starts from the origin and each displacement was done with two constant speeds, answer the following questions for the 5 second trip. Plot the position of the object as a function of time. Plot the velocity of the object as a function of...
1) The velocity in m/sec of a particle moving along the x-axis is given by the function v(t)= 2t2+ t+3,0sts6 Find the particle's displacement for the given time interval. A) 354 B) 180 C) 45 D) 81 1) The velocity in m/sec of a particle moving along the x-axis is given by the function v(t)= 2t2+ t+3,0sts6 Find the particle's displacement for the given time interval. A) 354 B) 180 C) 45 D) 81
The velocity-time graph on the right displays the behavior of a race cart along a straight track. Determine the following: (a) the average acceleration of the cart from t=0.0min to t=40.0min. (b) the cart’s instantaneous acceleration at t=30.0min. (c) the cart’s displacement for the entire graph shown on the graph. The velocity-time graph on the right displays the behavior of a race cart along a straight track. Determine the following: (a) The average acceleration of the cart from 60 velocity...
A velocity-time graph for an object moving along the x axis is shown in the figure. Every division along the vertical axis corresponds to 1.50 m/s and each division along the horizontal axis corresponds to 1.50 s. v (m/s) fs (a) Plot a graph of the acceleration versus time. Choose File no file selected This answer has not been graded yet. (b) Determine the average acceleration of the object in the time interval t = 7.50 s to t =...
The velocity-versus-time graph is shown for a particle moving along the x-axis. Its initial position is x0 = 1.8 m at t0 = 0 s. (Figure 1) Part A What is the particle's position at t = 1.0 s ? Part B What is the particle's velocity at t = 1.0s? Part C What is the particle's acceleration at t = 1.0 s? Part D What is the particle's position at t = 3.0s? Part E What is the particle's velocity at t = 3.0s? Part...
Given A position of a particle which moves along a straight line is defined by the relation'小64-m» 40, where s is expressed in feet and t in seconds Find a) O b) Or derive the equation of the particle's acceleration as a c) The time at which the velocity will be zero. d) The position of the particle when the velocity is zero. e) The acceleration of the particle when the velocity is zero. t) The displacement of the particle...
(11%) Problem 5: A particle's velocity along the x-axis is described by where 1 is in seconds, v İs in meters per second. A-1.09 m/s2, and B-4.69 m/s3 33% Part (a) What is the acceleration, in meters per second squared, of the particle at time 0-1 .0 s? a(to0.29 a(to)-0.29 Correct! 33% Part (b) What is the displacement, in meters, of the particle between times 10-10 s and ,,-3.0 s? Δι-- 1.62 Ar-1.62 Correct! * 33% Part (c) What is...
A particle travels along the circular path x2 +y-r, when the time t = 0 the particle it's at-r meter and y =0 m. If the y components of the particle's velocity is Vy 2r cos2t, determine: (a) the x and y components of its acceleration at any instant. (b) Draw the trajectory with the vector velocity and acceleration at t = π/4 sec. (c) calculate the average vector velocity between 0 and t/4 sec. (d) the distance travelled when...
parts a through e please with work. A particle travels along the circular path x2 +y-r, when the time t = 0 the particle it's at-r meter and y =0 m. If the y components of the particle's velocity is Vy 2r cos2t, determine: (a) the x and y components of its acceleration at any instant. (b) Draw the trajectory with the vector velocity and acceleration at t = π/4 sec. (c) calculate the average vector velocity between 0 and...