please complete this problem and explain
please complete this problem and explain The figure shows the x and ct coordinates of two...
Consider an event with space-time coordinates (t=2.00s,x=2.50 x 108m)in an inertial frame of reference S. Let S' be a second inertial frame of reference moving, in the positive x direction, with speed 2.70 x 108m/s relative to frame S. Find the value of gamma that will be needed to transform coordinates between frames S and S'. Use c=3 x 108m/s for the speed of light in vacuum. Suppose that S and S' share the same origin; that is, at t...
Two events are observed in a frame of reference S to occur at the same space point, with the second event occurring after a time of 1.70 s . In a second frame S' moving relative to S, the second event is observed to occur after a time of 2.25 s . What is the difference between the positions of the two events as measured in S'? Use 3.00×108 m/s for the speed of light in a vacuum.
A red light flashes at position x - 3.00 m and time t, - 1.00 x 10's, and a blue light flashes at x = 4.10 m and t = 9.74 x 10's, all measured in the reference frame. Reference frame S'moves uniformly to the right and has its origin at the same point as sattuto. Both flashes are observed to occur at the same place in S. (a) Find the relative speed between S and S. m/s (b) Find...
Consider an event with space-time coordinates (t=2.00s,x=2.50�108m)in an inertial frame of reference S. Let S' be a second inertial frame of reference moving, in the positive x direction, with speed 2.70�108m/s relative to frame S. Find the value of gamma that will be needed to transform coordinates between frames S and S'. Use c=3�108m/s for the speed of light in vacuum. Suppose that S and S' share the same origin; that is, at t = t' = 0, x =...
The space and time coordinates for two events as measured in a frame S are as follows: Event 1: x1=x0, t1=x0/c Event 2 : x2=2x0, t1=x0/2c (a) There exists a frame in which these events occur at the same time. Find the velocity of this frame with respect to S. (b) What is the value of t at which both events occur in the new frame?
Suppose that, at t = 4.00 x 10-4s, the space coordinates of a particle are x = 105 m, y = 35.0 m, and z = 40.0 m according to coordinate system S. If reference frame S' moves at speed 1.48 x 10 m/s in the +x-direction relative to frame S, compute the corresponding coordinate values as measured in frame S'. The reference frames start together, with their origins coincident at t = 0. x = m y = m...
Question 5 of 33 Suppose that, at : = 5.00 x 10-s, the space coordinates of a particle are x = 225 m, y = 30.0 m, and z = 35.0 m according to coordinate system S. If reference frame S' moves at speed 1.42 x 10 m/s in the +x-direction relative to frame S. compute the corresponding coordinate values as measured in frame S'. The reference frames start together, with their origins coincident at I = 0. כח m...
Please help me understand this problem An observer in an inertial reference frame S sees lightning strike simultaneously at two points that are 870 nm apart. He measures that the location of the first lightning strike is given by the four coordinates x1 0 m, y1 0 m, z1 0 m, and t0 s. He measures that the location of the second lightning strike is given by the four coordinates X2 = 870 m, y2 = 0 m, z2 0...
Two time-like separated events in spacetime have coordinates in the lab frame S given by (ch, x) = (1,1) and (a) How fast must S' be moving so that events 1 and 2 happen at the same point in space (i.e, their x coordi- (b) If S' is moving at speed u = 0.9c, how far separated in time (equivalently the coordinate cr) are the two (c) How fast must S be moving so that events 1 and 2 are...
Two events, A and B, occur in the frame S at spacetime 4-vector coordinates (0;500,10,10) and (600;2000,10,10) respectively. All coordinates are given in meters. (a) What is the spacetime interval between these events? What type of interval is it? (b) How fast must an observer be moving along the x axis for the two events to be simultaneous and what is the spatial separation between the events in this case? (c) Could event B precede event A for some observer?