Particle A is traveling at a speed of .85c (earth frame) towards another particle B which...

A muon formed high in Earth's atmosphere travels towards Earth at a speed v = 0.970c...

A muon formed high in Earth's atmosphere travels towards Earth at a speed v = 0.970c for a distance of 4.30 km as measured by an observer at rest with respect to Earth. It then decays into an electron, a neutrino, and an antineutrino. (a) How long does the muon survive according to an observer at rest on Earth? (b) Compute the gamma factor associated with the muon. (c) How much time passes according to an observer traveling with the...

5. An astronaut is traveling from the Earth to the planet Neptune. At a speed of...

5. An astronaut is traveling from the Earth to the planet Neptune. At a speed of 0.73 c, the trip takes 2.75 hours in the astronaut’s frame of reference. a) How much time does it take in the Earth’s frame of reference? b) What is the distance from the Earth to Neptune in the Earth’s frame of reference? c) While traveling in the rocket the astronaut measures the length of the ship to be 826 m and the radius to...

An astronaut is traveling from the Earth to the planet Neptune. At a speed of 0.73...

An astronaut is traveling from the Earth to the planet Neptune. At a speed of 0.73 c, the trip takes 2.75 hours in the astronaut’s frame of reference. How much time does it take in the Earth’s frame of reference? What is the distance from the Earth to Neptune in the Earth’s frame of reference? While traveling in the rocket the astronaut measures the length of the ship to be 826 m and the radius to be 85.0 m. What...

Sam is on a spaceship that travels from Earth to Proxima Centauri at 70% the speed...

Sam is on a spaceship that travels from Earth to Proxima Centauri at 70% the speed of light, or 0.7c, relative to Earth. Erma is an observer on Earth. From Sam's perspective, 1.35 x 108 seconds passed between when the Earth was near him and when Proxima Centauri is near him First we consider velocity and time: How fast in m/s is Sam moving as measured in the rest frame of the rocket? How fast in m/s is Erma moving...

Amanda pilots a space ship away from earth at a speed of 0.775c. At some moment...

Amanda pilots a space ship away from earth at a speed of 0.775c. At some moment she sends a light pulse toward earth. Exactly one year later she sends another pulse toward earth. (a) As measured in an inertial frame in which the earth is at rest, what is the difference in time between the generation of the two pulses? (b) What is the difference in time between detection of the two pulses on earth? Treat the earth as stationary,...

A muon is a type of unstable subatomic particle. When high-speed particles from outer space (sometimes...

A muon is a type of unstable subatomic particle. When high-speed particles from outer space (sometimes called "cosmic rays") collide with atoms in the upper atmosphere, they can create muons which travel toward the Earth. Suppose a muon created in the atmosphere travels at a speed of 0.941c toward the Earth's surface for a distance of 3.48 km, as measured by a stationary observer on Earth, before decaying into other particles. (a) As measured by the stationary observer on Earth,...

An unstable high-energy particle is created in the laboratory, and it moves at a speed of...

An unstable high-energy particle is created in the laboratory, and it moves at a speed of 0.989c. Relative to a stationary reference frame fixed to the laboratory, the particle travels a distance of 3.16 × 10-3 m before disintegrating. What is (a) the proper distance and (b) the distance measured by a hypothetical person traveling with the particle? Determine the particle's (c) proper lifetime and (d) its dilated lifetime.

An unstable high-energy particle is created in the laboratory, and it moves at a speed of...

An unstable high-energy particle is created in the laboratory, and it moves at a speed of 0.993c. Relative to a stationary reference frame fixed to the laboratory, the particle travels a distance of 1.64 × 10-3 m before disintegrating. What is (a) the proper distance and (b) the distance measured by a hypothetical person traveling with the particle? Determine the particle's (c) proper lifetime and (d) its dilated lifetime. Limit your answer to 3 significant digits.

A spaceship with rest mass m0 is traveling with an x-velocity V0x=+4/5 in the frame of...

A spaceship with rest mass m0 is traveling with an x-velocity V0x=+4/5 in the frame of the earth. It collides with a photon torpedo (an intense burst of light) moving in the -x direction relative to the earth. Assume that the ship's shield totally absorbs the photon torpedo. a)The oncoming torpedo is measured by terrified observers on the ship to have an energy of 0.75m0. What is the energy of the photon torpedo in the frame of earth? b)Use convervation...

1. In one inertial reference frame, an electron is observed traveling with a velocity of magnitude...

1. In one inertial reference frame, an electron is observed traveling with a velocity of magnitude v in the positive x-direction, where v is 0.6c. What are the momentum and total energy of the electron in that inertial reference frame in terms of v and the rest mass of the electron? What are the speed, momentum and energy of that electron as measured in a reference frame that is traveling at a velocity of magnitude v/2 in the positive x-direction?...