12:45 Exit Question 3 10 pts The velocity of a particle is given by the equation...
10. The velocity function of a particle is given by v(t) = 2t - 4 on the interval (0,4), where t is measured in seconds, and velocity is measured in meter per second. Sketch the graph of the velocity function, determine the displacement over the given interval and find the total distance traveled by the particle over the given interval.
ANSWER ALL PLEASE Question 35 2 pts A charged particle (with q = 1.0 x 10-2 C) that is moving through a uniform magnetic field has a velocity v = (6.0 x 105m/s) i + (4.0 x 105m/s) k when it experiences a force F due to the magnetic field. If B = (-3.0 x 10-3T)i + (4.0 x 10-3T)j + (5.0 x 10-3T)k, calculate the force, in N (in terms of unit vectors). Equation: F=qvxB OF=-(3.0 N)i - (6.0N)j...
It's not 4 m/s 0/1 pts Question 3 The equation that gives the particle displacement of a medium in which there is a simple harmonic progressive wave is y(x, t) sin T (x - 4t), where the units are Sl. At t 2 s, the velocity of a particle at x = 10 m is 4/p m/s. 8 m/s. 4 m/s O. 2 m/s.
(14 pts.) 3. A particle moves along a line so that its velocity at time t is v(t) = + - + - 6 (measured in meters per second). a) Find the displacement of the particle during the time period 1 st 54. b) Find the distance traveled during this time period.
The acceleration of a particle is given by a = 7t-14, where a is in meters per second squared and t is in seconds. Determine the velocity and displacement as functions of time. The initial displacement at t-0 is S0 -4 m, and the initial velocity is Vo 6 m/s. Once you have determined the functions of time, answer the questions Questions: when t = 5.8 s, v= m/s m/s?
Show all work for full credit. 1. A particle is moving so that its velocity (in feet/sec) is v(t) = ť? – 7t + 10, where t is time in seconds. a. Find the displacement (change in position) of the particle over the first 9 seconds. Give units. (2 points) b. Find the total distance traveled by the particle in the first 9 seconds. Give units. (2 points)
The displacement of a particle on a vibrating string is given by the equation s(t) = 12 + * sin(1211) where s is measured in centimeters and t in seconds. Find the velocity of the particle after t seconds. (t) = cm/s
Question 14 10 pts For a particle with velocity 5.651 x 10 Ax of the position that particle? m/s, if its velocity is known to within 0.85 % accuracy, what is Assume that the mass of the particle is 2.4 x 1026 kg. Use AxAph Upload Choose a File Question 14 10 pts For a particle with velocity 5.651 x 10 Ax of the position that particle? m/s, if its velocity is known to within 0.85 % accuracy, what is...
QUESTION 8 The velocity of a particle is v-1 9 i + (3-2) j m/s, where t is in seconds. If r:0 when particle in the y direction during the interval t 1 sto t 4 s 0, determine the displacement of the QUESTION 8 The velocity of a particle is v-1 9 i + (3-2) j m/s, where t is in seconds. If r:0 when particle in the y direction during the interval t 1 sto t 4 s...
ANSWER ALL PLEASE Question 16 2 pts In the the figure that is shown below, the y-intercept is (0,36) and the x-intercept is (6, 0). Find the electric potential difference between x= 0 andx=6 m. Note that they and z components of the electric field are zero. If your answer is negative, put the minus sign in the answer box. Please round your answer to one decimal place. E: (N/C) (0.y) (x,0) * (m) Equation: V=- | E (x) dx...