3) A particle moves in the xy-plane with velocity v (m/s) for time t (s) according...
A particle moves in the xy plane with constant acceleration. At time t=0 s, the position vector for the particle is r=9.70mx^+4.30my^. The acceleration is given by the vector a=8.00m/s^2x^+3.90m/s^2y^. The velocity vector at time t=o s is v=2.80m/sx^ - 7.00m/sy^. What is the magnitude of the position vector at time t= 2.10 s? What is the angle between the position vector and the positive x-axis at time t= 2.10 s?
1095 (1999AB, Calculator). A particle moves along the y-axis with velocity given by v(t) = t sin(t?) for t 0. a) In which direction (up or down) is the particle moving at time t = 1.5? Why? b) Find the acceleration of the particle at time t = 1.5. Is the velocity of the particle increasing at t = 1.5? c) Given that y(t) is the position of the particle at time t and that y(0) = 3, find y(2)....
9. A particle moves along the x-axis so that its velocity v at time t, for0 sts 5, is given by v(t) In(t2-3t +3). The particle is at position x 8 at time t 0. a) Find the acceleration of the particle at time t 4. b) Find all times t in the open interval 0<t <5 at which the particle changes direction. During which time intervals, for 0st s 5, does the particle travel to the left? c) Find...
Problem 16 •16 GO The velocity v of a particle moving in the xy plane is given by v = (6.0t - 4.014)i + 8.0j, with v in meters per second and t (>0) in seconds. (a) What is the acceleration when t = 3.0 s? (b) When (if ever) is the acceleration zero? (c) When (if ever) is the velocity zero? (d) When (if ever) does the speed equal 10 m/s? X = 60 - 8t - drei &...
0 A particle moves In the zy plane with constant a velocity vector at time t 0 s is e-8.00m/eェ-7,50m sy. Find the magnitude of the velocity vector at time t-4.30 s. At time t = O s, the position vector for the particle is r 7.20m Z + 8.40my. The acceleration is given by the vector ā 8.40m/82z + 8.00 n/-, The Tries 0/6 Part B What is the angle between the velocity vector and the positive x-axis at...
In the figure, particle A moves along the line y = 33 m with a constant velocity v of magnitude 2.7 m/s and directed parallel to the x axis. At the instant particle A passes the y axis, particle B leaves the origin with zero initial speed and constant acceleration ã of magnitude 0.46 m/s2. What angle θ between a and the positive direction of the y axis would result in a collision?
Velocity in xy-Plane Part A A particle's position in the xy-plane is given by the vector (ct2 - 2dt3i(3ct2 - di3)j, where c and d are positive constants. Find the expression for the x- component of the velocity (for time t> 0) when the particle is moving in the x-direction. You should express your answer in terms of the variables c and d. D (2ct-6dt 2) First find the velocity vector and use this to determine the times when the...
Acceleration, Velocity, and Displacement Vector Part A A particle moves in the zy plane with constant acceleration. At time t o а 8.9 m s2z + 8.8 m 82 y. The velocity vector at time t 0 s is-8.9 m/s z s, the position vector for the particle is # 3.40m +1.80m g. The acceleration is given by the vector 9.20 s 2.4 m sy. Find the magnitude of the velocity vector at time t Submit Answer Unable to interpret...
A particle moving in the ry-plane has v(2ti (3-t2)j) m/s, where t is in s velocity What is the x component of the particle's acceleration vector at t = 5 s? Express your answer with the appropriate units Value Units az Submit My Answers Give Up Incorrect, Iry Again, 5 attempts remaining Enter your answer using dimensions of acceleration Part B What is the y component of the particle's acceleration vector at t Express your answer with the appropriate units...
Help! A fish swimming in a horizontal plane has velocity V (4.00 i1.00 j) m/s at a point in the ocean where the position relative to a certain rock is fter the fish swims with constant acceleration for 19.0 s, its velocity is V (15.0 1-3.00 j) m/s (16.0 1 4.20) m (a) What are the components of the acceleration of the fish? ax0.579 m/s2 0.105X Review the definition of average acceleration and remember that each component is treated separately....