A proton travels in the accelerator at Fermilab at 99.999954% of the speed of light. An...
A proton travels in the accelerator at Fermilab at 99.999954% of the speed of light. An anti-proton travels in the opposite direction at the same speed. What is the relative velocity of the two particles?
____________ c
Solved and got .0199c which is incorrect
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A proton travels in the accelerator at Fermilab at 99.999954% of
the speed of light. An...
A proton travels in the accelerator at Fermilab at 99.999954% of the speed of light. An...
A proton travels in the accelerator at Fermilab at 99.999954% of the speed of light. An anti-proton travels in the opposite direction at the same speed. What is the relative velocity of the two particles?
Question 5 A proton and a neutron traveling at the same speed enter a uniform magnetic...
Question 5 A proton and a neutron traveling at the same speed enter a uniform magnetic field. The velocity vector of each particle is perpendicular to the magnetic field. Which of the following statements best describes their motions? The paths of both particles will curve in the same direction, and the radil of the two trajectories will be equal. The paths of both particles will curve in opposite directions, and the radil of the two trajectories will be equal. The...
3) Two particles fly apart in opposite directions in a laboratory. Particle A travels to the left...
3) Two particles fly apart in opposite directions in a laboratory. Particle A travels to the left at speed 0.06c, and particle B travels to the right at speed 0.09c (both speeds are relative to the laboratory). We wish to calculate the relative velocity of particles A and B using the Galilean transformation. a) Using a figure, show which object in this scenario defines the Home frame and which object defines the Other frame. [Hint: Be careful - in the...
A velocity selector is used in accelerator mass spectrometry to select particles based on their speed.
A velocity selector is used in accelerator mass spectrometry to select particles based on their speed. The velocity selector is composed of orthogonal electric and magnetic fields, such that particles with the correct charge to mass ratio and speed will be unaffected, and other particles will be deflected. If the Electric Field is oriented down, What is the direction of the Magnetic Field? A charged particle moves through the velocity selector at a constant speed in a straight line. The electric field...
A proton moves at a speed of 0.99c in a particle accelerator. The rest mass of...
A proton moves at a speed of 0.99c in a particle accelerator. The rest mass of a proton is 1.67 times 10^-27 kg. a) What is the total energy of the proton, when viewed from the earth's reference frame? b) What is the kinetic energy of the proton, when viewed from the earth's reference frame? c) What implications do the answers to these two questions have for particle accelerators?
A proton in a particle accelerator has a speed of 5.0 x 10^6 m / s....
A proton in a particle accelerator has a speed of 5.0 x 10^6 m / s. The proton is found with a magnetic field whose magnitude is 0.40 T and its direction is 30 degrees with respect to the speed of the proton. Find the magnitude of the magnetic force acting on the proton and find its acceleration.
(1) Accelerator (acc): In the accelerator, there is only an uniform Electric field due to a...
(1) Accelerator (acc): In the accelerator, there is only an uniform Electric field due to a potential difference Vacc across two vertical plates separated from a distance dacc. This E-field, Eacc, accelerates the charged particles. The charge emerges from the vertical plates with a speed v. Skecth the situation describing the accelerator. What are the EQUATIONS defining: the E-field between the plates, Eacc the acceleration acting on the charge, charge.acc the position as the charge travels, charge.pos the velocity as...
1. A proton travels directly (head on) towards a stationary lead nucleus, with an initial speed...
1. A proton travels directly (head on) towards a stationary lead nucleus, with an initial speed v0, when the proton is a distance x0 from the nucleus. It undergoes an acceleration of magnitude a = kx−2 directed away from the nucleus, where x is the distance from the proton to the nucleus and k is a positive constant. (Assume the lead nucleus remains stationary throughout.) (a) Give an expression for how the velocity of the proton depends on x. (It...
A proton in a particle accelerator has a total energy that is 326 times its rest...
A proton in a particle accelerator has a total energy that is 326 times its rest energy. (a) What is the proton's speed? Express your answer as a ratio of the speed to the speed of light. (Round your answer to at least six decimal places.) v c = (b) What is the kinetic energy of the proton, in units of MeV? MeV
A proton in a particle accelerator has a total energy that is 418 times its rest...
A proton in a particle accelerator has a total energy that is 418 times its rest energy. a) What is the proton's speed? Express your answer as a ratio of the speed to the speed of light. (Round your answer to at least six decimal places.) v/c = b) What is the kinetic energy of the proton, in units of MeV? ________MeV
Question 5 A proton and a neutron traveling at the same speed enter a uniform magnetic field. The velocity vector of each particle is perpendicular to the magnetic field. Which of the following statements best describes their motions? The paths of both particles will curve in the same direction, and the radil of the two trajectories will be equal. The paths of both particles will curve in opposite directions, and the radil of the two trajectories will be equal. The...
3) Two particles fly apart in opposite directions in a laboratory. Particle A travels to the left at speed 0.06c, and particle B travels to the right at speed 0.09c (both speeds are relative to the laboratory). We wish to calculate the relative velocity of particles A and B using the Galilean transformation. a) Using a figure, show which object in this scenario defines the Home frame and which object defines the Other frame. [Hint: Be careful - in the...
A proton moves at a speed of 0.99c in a particle accelerator. The rest mass of a proton is 1.67 times 10^-27 kg. a) What is the total energy of the proton, when viewed from the earth's reference frame? b) What is the kinetic energy of the proton, when viewed from the earth's reference frame? c) What implications do the answers to these two questions have for particle accelerators?
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