Homework Answers
2. An observer S sees a flash of red light 1200 m from his position and a flash of blue light straight line. He meas...
2. An observer S sees a flash of red light 1200 m from his position and a flash of blue light straight line. He measures the time interval between 720 m closer to him and on the same the occurrences of the flashes to be 5 microseconds, the red flash occurring first. a. What is the relative velocity v of a second observer S' who would record these flashes as occurring at the same place? b. From the point of...
Consider an event with space-time coordinates (t=2.00s,x=2.50 x 108m)in an inertial frame of reference S. Let...
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...
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 se...
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 =...
Observer O sees a red flash of light at the origin at t = 0 and...
Observer O sees a red flash of light at the origin at t = 0 and a blue flash of light at x = 3.19 km at a time t = 7.56 μs. What are the distance and the time interval between the flashes according to observer O', who moves relative to O in the direction of increasing x with a speed of 0.630c? Assume that the origins of the two coordinate systems line up at t = t' =...
(1) Observer S (at x 0) sees a flash of red light at XR 1200 m...
(1) Observer S (at x 0) sees a flash of red light at XR 1200 m from her position and a flash of blue light at x,-480 m on the same straight line. She measures the time interval between the flashes to be 5 us, with the blue flash occurring first (that is, ted ue 5 Hs.) What is the velocity v of observer S' who records the flashes as occurring at the same place, that is, who measures Ax...
Two events are observed in a frame of reference S to occur at the same space...
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.
At t=1.3s, a firecracker explodes at x=12m in reference frame S. Four seconds later, a second...
At t=1.3s, a firecracker explodes at x=12m in reference frame S. Four seconds later, a second firecracker explodes at x=18m. Reference frame S′ moves in the x-direction at a speed of 4.7 m/s . At time t=0 the origins of frames S and S′ coincide. A) What are the positions of these two events in frame S′? B)What are the times at which these two events occur in frame S′?
Suppose that, at t = 4.00 x 10-4s, the space coordinates of a particle are x...
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...
Object A has a position as a function of time given by r A(t) = (3.00...
Object A has a position as a function of time given by r A(t) = (3.00 m/s)t i^ + (1.00 m/s2)t2 j^. Object B has a position as a function of time given by rB(t) = (4.00 m/s)t i^ + (−1.00 m/s2)t2 j^. All quantities are SI units. What is the distance between object A and object B at time t = 3.00 s?
Object A has a position as a function of time given by r⃗ A(t) = (3.00...
Object A has a position as a function of time given by r⃗ A(t) = (3.00 m/s)t i^ + (1.00 m/s2)t2 j^. Object B has a position as a function of time given by r⃗ B(t) = (4.00 m/s)t i^ + (−1.00 m/s2)t2 j^. All quantities are SI units. What is the distance between object A and object B at time t = 4.00 s?
2. An observer S sees a flash of red light 1200 m from his position and a flash of blue light straight line. He measures the time interval between 720 m closer to him and on the same the occurrences of the flashes to be 5 microseconds, the red flash occurring first. a. What is the relative velocity v of a second observer S' who would record these flashes as occurring at the same place? b. From the point of...
(1) Observer S (at x 0) sees a flash of red light at XR 1200 m from her position and a flash of blue light at x,-480 m on the same straight line. She measures the time interval between the flashes to be 5 us, with the blue flash occurring first (that is, ted ue 5 Hs.) What is the velocity v of observer S' who records the flashes as occurring at the same place, that is, who measures Ax...
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...
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