Spaceships A and B move in opposite directions at the same speed of 0.634c relative to earth, with A moving away from earth and B moving toward earth. Find the velocity of B relative to A.
Spaceships A and B move in opposite directions at the same speed of 0.634c relative to...
4. Spaceships A and B move in opposite directions at the same speed of 0.780c relative to earth, with A moving away from earth and B moving toward earth. Find the velocity of B relative to A. _______________ c
Two spaceships move away from the earth in opposite directions. spaceship A moves in one direction at 0.8c spaceship B the exact opposite direction also at 0.8c. What is the speed of spaceship B as measured by A and what is the speed of spaceship A as measured by B?
Two spaceships approach the Earth from opposite directions. According to an observer on the Earth, ship A is moving at a speed of 0.743c and ship B at a speed of 0.831c. What is the velocity of ship A as observed from ship B? Of ship B as observed from ship A? Provides diagrams explaining the reference frames
Two spaceships leave Earth in opposite directions, each with a speed of 0.70 c with respect to Earth. What are the velocities of spaceship 1 relative to spaceship 2 and spaceship 2 relative to spaceship 1? Take the positive direction to be the direction of motion of spaceship 1.
. Two objects of the same mass move along the same line in opposite directions. The first mass is moving with speed v. The objects collide, stick together, and move with speed 0.100v in the direction of the velocity of the first mass before the collision. 1.How much kinetic energy is lost during the collision?
You are standing on the ground observing the sky. Two spaceships A and B fly past you. Spaceship A is moving at a constant speed of 1000 m/s relative to the ground. Spaceship B is moving opposite to A at speed of 1000 m/s relative to the ground. Spaceship A fires a strobe light that sends out a pulse of light opposite to where it is heading. a) What is the velocity of spaceship A relative to spaceship B? b) What is...
Spaceships A, B, and C have the same proper length I, and according to an observer on Earth, are moving with same relativistic speed v in the +z, -, and -v direction, respectively. Find the length of each spaceship as measured by an observer in the Spaceship A. Spaceships A, B, and C have the same proper length I, and according to an observer on Earth, are moving with same relativistic speed v in the +z, -, and -v direction,...
Two spaceships leave the Earth at time t-0 in opposite directions with velocities v1 and v2 (V1 > v2). At a subsequent time ts two light signals are sent from the Earth to both of the spaceships. E, and E2 are the events of the light signal reached at spaceship 1 and spaceship 2 respectively. (a) Find ty and xt of E, and the spatial coordinates of E, and E2 as viewed from (30 marks) (b) Obtain the ratio between...
Two spaceships leave the Earth at time t-0 in opposite directions with velocities v, and v2 (v1 > v2). At a subsequent time ts, two light signals are sent from the Earth to both of the spaceships. E and E2 are the events of the light signal reached at spaceship 1 and spaceship 2 respectively. (a) Find ti and x of E, and the spatial coordinates of E, and Ea as viewed from (30 marks) the Earth. (b) Obtain the...
An alpha particle (charge 2e) and an electron move in opposite directions from the same point, each with the speed of 1.55 x 10 5 m/s (see the following figure). Find the magnitude and direction of the total magnetic field these charges produce at point P, which is 1.00 nm from each of them.