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Question 5 of 33 Suppose that, at : = 5.00 x 10-s, the space coordinates of...
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...
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 =...
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′?
4. A particle starts from an initial position with coordinates To = 8 + 5ſm, at...
4. A particle starts from an initial position with coordinates To = 8 + 5ſm, at time t= 0, with a velocity of V. = 3i-8 m/s. The particle moves in the r-y plane with a constant acceleration, à = -21 - m/s. (a) At the instant the y-coordinate of the particle's position is -10 m, find the x- coordinate of its position. (b) Calculate the x- and y-components of the particle's position when the particle reaches its turning point...
The coordinate axes of the reference frame S' remain parallel to those of S, as S'...
The coordinate axes of the reference frame S' remain parallel to those of S, as S' moves away from S at a constant velocity Vç (6.0î 9.0j 7.0k) m/s. (Express your answers in vector form. Use the following as necessary: t. Assume all positions are in meters, velocities are in m/s, accelerations are in m/s, and t is in seconds. Do not include units in your answers.) (a) If at time t 0 the origins coincide, what is the position...
please complete this problem and explain The figure shows the x and ct coordinates of two...
please complete this problem and explain
The figure shows the x and ct coordinates of two events in a reference frame S. a) Is there a frame S' in which the two events occur at the same time? If so, what is the b) istherea trame srin whidh the two events ocur at he same location? Ifso what is the speed of S" relative to S; if not, why not? ct (m) 10 5 Event 2 23 4 5678 9...
3. A train boxcar traveling in the positive x-direction with a velocity, u 10.00 m/s R,...
3. A train boxcar traveling in the positive x-direction with a velocity, u 10.00 m/s R, passes directly in front of an observer on a stationary platform. At the precise moment the boxcar passes the observer, a particle is launched from the bottom, left corner of the boxcar with an initial speed, vo' 8.00 m/s at an angle of 0 30.0° above the horitonatal according to an observer on the boxcar (shown below left). Immediately following the launch, the boxcar...
1 question 5 parts - 150 m/s 2.656 x 10-25 kg -1.28 x 10-18 C 1...
1 question 5 parts
- 150 m/s 2.656 x 10-25 kg -1.28 x 10-18 C 1 0.7 m | 17 A y 021 (part 1 of 5) 10.0 points A long, straight wire is in the plane of the page and carries a current of 17 A. Point P is also in the plane of the page and is a perpendicular distance 0.7 m from the wire, as shown below. P z is upward from the paper With reference to...
Question 5 [12 10 22 marks] (a) In a given inertial reference frame, S', consider a...
Question 5 [12 10 22 marks] (a) In a given inertial reference frame, S', consider a region of space where there is a uniform and constant electric field, E', and zero magnetic field, i.e. B' = 0. The frame S' moves with respect to an observer, in another frame S, with velocity v. Write an expression for the electric field, E, observed in S? Clearly explain any notation (i) and new quantities introduced Write an expression for the magnetic field,...
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...
4. A particle starts from an initial position with coordinates To = 8 + 5ſm, at time t= 0, with a velocity of V. = 3i-8 m/s. The particle moves in the r-y plane with a constant acceleration, à = -21 - m/s. (a) At the instant the y-coordinate of the particle's position is -10 m, find the x- coordinate of its position. (b) Calculate the x- and y-components of the particle's position when the particle reaches its turning point...
The coordinate axes of the reference frame S' remain parallel to those of S, as S' moves away from S at a constant velocity Vç (6.0î 9.0j 7.0k) m/s. (Express your answers in vector form. Use the following as necessary: t. Assume all positions are in meters, velocities are in m/s, accelerations are in m/s, and t is in seconds. Do not include units in your answers.) (a) If at time t 0 the origins coincide, what is the position...
please complete this problem and explain
The figure shows the x and ct coordinates of two events in a reference frame S. a) Is there a frame S' in which the two events occur at the same time? If so, what is the b) istherea trame srin whidh the two events ocur at he same location? Ifso what is the speed of S" relative to S; if not, why not? ct (m) 10 5 Event 2 23 4 5678 9...
3. A train boxcar traveling in the positive x-direction with a velocity, u 10.00 m/s R, passes directly in front of an observer on a stationary platform. At the precise moment the boxcar passes the observer, a particle is launched from the bottom, left corner of the boxcar with an initial speed, vo' 8.00 m/s at an angle of 0 30.0° above the horitonatal according to an observer on the boxcar (shown below left). Immediately following the launch, the boxcar...
1 question 5 parts
- 150 m/s 2.656 x 10-25 kg -1.28 x 10-18 C 1 0.7 m | 17 A y 021 (part 1 of 5) 10.0 points A long, straight wire is in the plane of the page and carries a current of 17 A. Point P is also in the plane of the page and is a perpendicular distance 0.7 m from the wire, as shown below. P z is upward from the paper With reference to...
Question 5 [12 10 22 marks] (a) In a given inertial reference frame, S', consider a region of space where there is a uniform and constant electric field, E', and zero magnetic field, i.e. B' = 0. The frame S' moves with respect to an observer, in another frame S, with velocity v. Write an expression for the electric field, E, observed in S? Clearly explain any notation (i) and new quantities introduced Write an expression for the magnetic field,...
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