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![b) Sime Tam coordinate system at the origine of boy ime=0. [for all time], coordinate System Alices position be x. x = xot u](http://img.homeworklib.com/questions/9868b170-914f-11ea-be2f-25729a43a0d5.png?x-oss-process=image/resize,w_560)
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Problem 1 You're in a spaceship...
Alice G LOO Bob Let's revisit the simultaneity problem from worksheet 11. To make things concrete,...
Alice G LOO Bob Let's revisit the simultaneity problem from worksheet 11. To make things concrete, we'll include specific numbers. Bob is standing on the ground watching Alice go by in a high-speed train. As seen in Bob's reference frame, Alice is traveling to the right at speed v = +0.80c. As measured in Bob's frame, Alice's rail car is 12 m long. Alice is sitting in the exact center of the train car. At the instant that the Alice...
A spaceship is moving past Earth at 0.99c. The spaceship fires two lasers. Laser A is...
A spaceship is moving past Earth at 0.99c. The spaceship fires two lasers. Laser A is in the same direction it is traveling, and Laser B is in the opposite direction. How fast will the light from each laser be traveling according to an observer on Earth? Select one: a. The light from Laser A will be traveling at 1.99c, the light from Laser B at 0.010 b. The light from Laser A will be traveling at c, the light...
Problem 4 (25 Points) A spaceship passes the earth at t=t’=0 with relative velocity v. At...
Problem 4 (25 Points) A spaceship passes the earth at t=t’=0 with relative velocity v. At time t1 on earth clocks, a super space ship leaves the earth with relative velocity V>v to catch up with the first one. This will happen at earth time t2, where vt2 = V(t2-t1) or t2=V t1/(V-v). (a) What does the clock on the slow spaceship read when the earth clock reads t1 ? (b) If viewed from the slow spaceship, how far from...
Practice Problem 27.3 SOLUTION A spaceship flies past earth with a speed of 0.980c (about 2.97...
Practice Problem 27.3 SOLUTION A spaceship flies past earth with a speed of 0.980c (about 2.97 x 10 m/s) relative to earth. A crew member on the spaceship measures its length, obtaining the value 400 m. What is the length measured by observers on earth? SET UP The length of the spaceship in the frame in which it is at rest (400 m) is a proper length in this frame, corresponding to lo in We want to find the length...
please help 2. Now we are going to look at problem 1 again, but this time...
please help
2. Now we are going to look at problem 1 again, but this time we are going to set the spaceship as the inertial stationary frame, meaning that the Earth is defined as the moving frame and traveling away from you. 1B:.8740 ; P = 2.058yr a. Using your answer from Ib as the speed of the moving frame, V, what is the speed of the Earth with respect to your spaceship? Using a Galilean Transformation equation for...
Question I need answered is bold faced here: Relativistic Mass Still standing in the same spaceship......
Question I need answered is bold faced here:
Relativistic Mass Still standing in the same spaceship... With
respect to an observer in a given frame of reference, how fast
would the spaceship have to move in order for your [moving] mass to
be double your resting mass? From your perspective, what
will be your mass on board the spaceship? In the last two weeks we
have investigated time, length, and mass at very high velocities.
Identify the unifying physical principle...
A spaceship is preparing to dock with a space station. Throughout this problem the space station...
A spaceship is preparing to dock with a space station.
Throughout this problem the space station is motionless in the
space frame (inertial frame). Prior to docking, some rotational
maneuvers are necessary for the spaceship. At t = 0, the angular
velocity of the spaceship is zero, and we have e_1 = x cap, e_2 = y
cap and e_3 = z cap. A number of small rocket engines are attached
to the exterior of the spaceship, and they can...
piloting a state-of-the-art spaceship to α Centauri, which is a star about 4 lightyears away as measured from Earth. Your ship cruises at a speed of 0.6c. For this problem, you can assume that Ea...
piloting a state-of-the-art spaceship to α Centauri, which is a star about 4 lightyears away as measured from Earth. Your ship cruises at a speed of 0.6c. For this problem, you can assume that Earth and a Centauri are at rest with respect to each other. At your journey's midpoint, you decide to send a souvenir package to your folks back home. You launcha probe back to Earth at a speed of v 0.8c from your perspective. a. How long...
just I need ans for 1 (a) and 2(c) don't need remaining please help me in...
just I need
ans for 1 (a)
and 2(c)
don't need remaining please help me in solving the problems
· I. A rocketship of length 100 m when at rest, traveling at u/c = 0.6, carries a radio receiver at its nose. A radio pulse is emitted from a stationary space station just as the tail of the rocket passes the station. (a) From the point of view of the rocket reference frame, how far from the tail does the...
Problem 2 please Relativity: Ar-ar- Relativistic addition of velocities: -- Problem 1. A child riding a...
Problem 2 please
Relativity: Ar-ar- Relativistic addition of velocities: -- Problem 1. A child riding a train throws a ball with speed 2/5 of the speed of light in the +x direction, in the train's reference frame. The train itself is moving at a constant speed of 2/5 in the +x direction with respect to the ground. What is the speed of the ball as observed by someone on the ground? The speed of light is c. V=500 Problem 2....
Alice G LOO Bob Let's revisit the simultaneity problem from worksheet 11. To make things concrete, we'll include specific numbers. Bob is standing on the ground watching Alice go by in a high-speed train. As seen in Bob's reference frame, Alice is traveling to the right at speed v = +0.80c. As measured in Bob's frame, Alice's rail car is 12 m long. Alice is sitting in the exact center of the train car. At the instant that the Alice...
A spaceship is moving past Earth at 0.99c. The spaceship fires two lasers. Laser A is in the same direction it is traveling, and Laser B is in the opposite direction. How fast will the light from each laser be traveling according to an observer on Earth? Select one: a. The light from Laser A will be traveling at 1.99c, the light from Laser B at 0.010 b. The light from Laser A will be traveling at c, the light...
Practice Problem 27.3 SOLUTION A spaceship flies past earth with a speed of 0.980c (about 2.97 x 10 m/s) relative to earth. A crew member on the spaceship measures its length, obtaining the value 400 m. What is the length measured by observers on earth? SET UP The length of the spaceship in the frame in which it is at rest (400 m) is a proper length in this frame, corresponding to lo in We want to find the length...
please help
2. Now we are going to look at problem 1 again, but this time we are going to set the spaceship as the inertial stationary frame, meaning that the Earth is defined as the moving frame and traveling away from you. 1B:.8740 ; P = 2.058yr a. Using your answer from Ib as the speed of the moving frame, V, what is the speed of the Earth with respect to your spaceship? Using a Galilean Transformation equation for...
Question I need answered is bold faced here:
Relativistic Mass Still standing in the same spaceship... With
respect to an observer in a given frame of reference, how fast
would the spaceship have to move in order for your [moving] mass to
be double your resting mass? From your perspective, what
will be your mass on board the spaceship? In the last two weeks we
have investigated time, length, and mass at very high velocities.
Identify the unifying physical principle...
A spaceship is preparing to dock with a space station.
Throughout this problem the space station is motionless in the
space frame (inertial frame). Prior to docking, some rotational
maneuvers are necessary for the spaceship. At t = 0, the angular
velocity of the spaceship is zero, and we have e_1 = x cap, e_2 = y
cap and e_3 = z cap. A number of small rocket engines are attached
to the exterior of the spaceship, and they can...
piloting a state-of-the-art spaceship to α Centauri, which is a star about 4 lightyears away as measured from Earth. Your ship cruises at a speed of 0.6c. For this problem, you can assume that Earth and a Centauri are at rest with respect to each other. At your journey's midpoint, you decide to send a souvenir package to your folks back home. You launcha probe back to Earth at a speed of v 0.8c from your perspective. a. How long...
just I need
ans for 1 (a)
and 2(c)
don't need remaining please help me in solving the problems
· I. A rocketship of length 100 m when at rest, traveling at u/c = 0.6, carries a radio receiver at its nose. A radio pulse is emitted from a stationary space station just as the tail of the rocket passes the station. (a) From the point of view of the rocket reference frame, how far from the tail does the...
Problem 2 please
Relativity: Ar-ar- Relativistic addition of velocities: -- Problem 1. A child riding a train throws a ball with speed 2/5 of the speed of light in the +x direction, in the train's reference frame. The train itself is moving at a constant speed of 2/5 in the +x direction with respect to the ground. What is the speed of the ball as observed by someone on the ground? The speed of light is c. V=500 Problem 2....
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