Find the instantaneous velocity of the particle described in the figure below at the following times....
Find the instantaneous velocity of the particle described in the figure below at the following times. x(m) 10 8 6 4 5 6) -6 (a) t-1.2s m/s (b) t3.2s m/s (c)4.2s m/s (d) t-7.7 s m/s
Find the instantaneous velocity of the particle described in the figure below at the following times. (a) t = 1.1 s m/s (b) t = 3.1 s m/s (c) t = 4.7 s m/s (d) t = 7.3 s m/s
8. Find the instantaneous velocity of the particle described in Figure P2.1 at the following times: (a) t = 1.0 s, (b) t = 3.0 s, (c) t = 4.5 s, and (d) t = 7.5 s. x (m) 10 - 6 il -2 -4 -6 Figure P2.1 Problems 1 and 8.
Find the instantaneous velocity of the particle described in the figure below at the following times. a) t= 0.9 s (b) t = 3.5 s (c) t = 4.1 s (d) t = 7.2s
9. Find the instantaneous velocity of the particle W described in Figure P2.1 at the following times: (a) t - 1.0 s, (b) t 3.0 s, (c) t 4.5 s, and (d) t 7.5.s.
The graph in the figure shows the velocity of a particle as it travels along the x-axis.(a) In what direction (+x or -x) is the acceleration at t = 0.5 s?(b) In what direction (+x or -x) is the acceleration at t = 3.0 s?(c) What is the average acceleration of the particle between t = 2.0 s and t = 4.0 s?(d) At what value of t is the instantaneous acceleration equal to 0 m/s2?
Instantaneous Velocity: example problem A train moves slowly eastward along a straight portion of track. 10 Its position as a function of time 8 is shown in the graph. 6 Find: A B (a) The average velocity for the total trip. (b) The average velocity for the 1(s) first 4.00 s. 2 4 6 8 10 12 4 (c) The average velocity from t = 4.00 s to t = 8.00 s. (d) The instantaneous velocity at t = 2.00...
A particle with a charge of -1.24×10^8 C is moving with instantaneous velocity v= (1.49×10^4 m/s)i + (-3.85×10^4 m/s)j. What is the force exerted on this particle by a magnetic field:(A) B=(1.40 T)i + (-2.30 T)k and;(B) B=(1.25 T)i + (2.00 T)j + (3.50 T)k?
The figure shows a circular path taken by a particle. If the instantaneous velocity of the particle is v = (2 m/s)i - (2 m/s)j, through which quadrant is the par- ticle moving at that instant if it is traveling clockwise First O Second O Third o Fortho