Two particles have different rest energies but the same kinetic energy. Which of the following statements...

Two particles, the first with 2 times the mass of the second, have the same kinetic...

Two particles, the first with 2 times the mass of the second, have the same kinetic energy. What is the ratio between the magnitude of the momentum of the first particle and the magnitude of the momentum of the second particle?

Beryllium-8 is an unstable isotope and decays into two α particles, which are helium nuclei with...

Beryllium-8 is an unstable isotope and decays into two α particles, which are helium nuclei with mass 6.68×10−27kg. This decay process releases 1.5×10−14J of energy. For this problem, let's assume that the mass of the Beryllium-8 nucleus is just twice the mass of an α particle and that all the energy released in the decay becomes kinetic energy of the α particles. Part A If a Beryllium-8 nucleus is at rest when it decays, what is the speed of the  α...

Beryllium-8 is an unstable isotope and decays into two α particles, which are helium nuclei with...

Beryllium-8 is an unstable isotope and decays into two α particles, which are helium nuclei with mass 6.68×10−27kg. This decay process releases 1.5×10−14J of energy. For this problem, let's assume that the mass of the Beryllium-8 nucleus is just twice the mass of an α particle and that all the energy released in the decay becomes kinetic energy of the α particles. If a Beryllium-8 nucleus is at rest when it decays, what is the speed of the α particles...

1. Which has the greater kinetic energy, a heavy truck at rest or a moving roller...

1. Which has the greater kinetic energy, a heavy truck at rest or a moving roller skate? a. none of above b. heavy truck at rest c. the roller skate at rest d. The kinetic energies are equal. 2. If a sports car with a mass of 2000 kg travels down the road with a speed of 10 m/s, its kinetic energy is _______________ kg (m/s)2 a. 80000 b. 16000 c. 8000 d. 100000 e.none of above 3. A sports...

A subatomic particle X spontaneously decays into two particles, A and B, each of rest energy...

A subatomic particle X spontaneously decays into two particles, A and B, each of rest energy 1.40 × 102 MeV. The particles fly off in opposite directions, each with speed 0.827c relative to an inertial reference frame S. Use energy conservation to determine the rest energy of particle X. thank you for your help

Two particles with the same mass, 70.0 g, are released from rest in space with an...

Two particles with the same mass, 70.0 g, are released from rest in space with an initial distance of 0.85 m between them. Particle A has charge 14.5 μC while particle B has charge 62.0 μC. What is the kinetic energy (in J) of particle B at the instant when the particles are 2.60 m apart? Round your answer to 2 decimal places.

An electron and positron (anti-electron) has rest energy 0.5 MeV. The two electron and positron traveling...

An electron and positron (anti-electron) has rest energy 0.5 MeV. The two electron and positron traveling in opposite direction at a speed of 0.99999*ccollide to form a new particle with a huge mass in the lab. A) What is the total energy of the two particles?   B) What is their Kinetic energy at that speed? C) What is the momentum of the two particles? D) What is the rest mass of the new particle discovered?

1) A system of particles is known to have a total kinetic energy of zero. What...

1) A system of particles is known to have a total kinetic energy of zero. What can you say about the total momentum of the system? (2) A bowling ball and a Ping-Pong ball are rolling toward you with the same momentum. If you exert the same force to stop each one, which takes a longer time to bring to rest? (3) A cannon sits on a stationary railroad flatcar with a total mass of 1000 kg. When a 10-kgcannonball...

Two particles are moving toward each other along the x axis with equal speeds. Specifically, particle...

Two particles are moving toward each other along the x axis with equal speeds. Specifically, particle 1 of mass 7 kg moves to the right at 3.87 m/s and particle 2 of mass 15 kg moves to the left at the same speed. The particles collide elastically. After the collision, the first particle moves at 90◦ to its original direction while the second particle is deflected through a smaller angle θ2 < 90◦. A) Find the final speed of particle...

When a solution is heated, do all of the molecules attain the same kinetic energy, or...

When a solution is heated, do all of the molecules attain the same kinetic energy, or do they have different kinetic energies? If they have different kinetic energies, why is that so?