When a particle of rest mass mo undergoes an increase in its velocity, Group of answer...

if Vcm is the velocity of the center of mass of a group of particle with...

if Vcm is the velocity of the center of mass of a group of particle with masses and positions of mi and ri and ri' are these particles positions with respect to their center of mass then prove that the kinetic energy for these particles is given by T =

Answer all with steps 1. A moving particle is subject to conservative forces only. When its...

Answer all with steps 1. A moving particle is subject to conservative forces only. When its kinetic energy decreases by 10 J, what happens to its mechanical energy? 2. A 1.2 kg mass is projected from ground level with a velocity of 30 m/s at some unknown angle above the horizon. A short time after being projected, the mass barely clears a 16-m tall fence. Disregard air resistance and assume the ground is level. What is the kinetic energy of...

A uranium-238 nucleus at rest undergoes radioactive decay, splitting into an alpha particle (helium nucleus) with...

A uranium-238 nucleus at rest undergoes radioactive decay, splitting into an alpha particle (helium nucleus) with mass 6.64×10-27 kg and a thorium nucleus with mass 3.89×10-25 kg. The measured kinetic energy of the alpha particle is 7.11×10-13 J. 1) After the decay, the kinetic energy of the thorium nucleus was _________ the kinetic energy of the alpha particle. (less than, greater than or equal to.)

A uranium-238 nucleus at rest undergoes radioactive decay, splitting into an alpha particle (helium nucleus) with...

A uranium-238 nucleus at rest undergoes radioactive decay, splitting into an alpha particle (helium nucleus) with mass 6.64×10-27 kg and a thorium nucleus with mass 3.89×10-25 kg. The measured kinetic energy of the alpha particle is 4.01×10-13 J. If after the decay, the alpha particle is observed to move in the positive x direction. After the decay, what direction did the thorium nucleus move? Complete the following statement with less than, greater than or equal to. After the decay, the...

A particle of rest mass energy 18 MeV decays from rest into an electron. (a) Assuming...

A particle of rest mass energy 18 MeV decays from rest into an electron. (a) Assuming that all the lost mass is converted into the electron’s kinetic energy, find ? for the electron. (b) What is the electron’s velocity? Please show all steps and equations used

Mass of a Moving Particle The mass m of a particle moving at a velocity v...

Mass of a Moving Particle The mass m of a particle moving at a velocity v is related to its rest mass m0 by the equation m = m0 1 − v2 c2 where c (2.98 ✕ 108 m/s) is the speed of light. Suppose an electron of rest mass 9.11 ✕ 10−31 kg is being accelerated in a particle accelerator. When its velocity is 2.84 ✕ 108 m/s and its acceleration is 2.49 ✕ 105 m/s2, how fast is...

The kinetic energy for a certain particle is 1.5 times as large as its rest energy....

The kinetic energy for a certain particle is 1.5 times as large as its rest energy. A.) what is the speed of this particle? B.) by what factor do we need to increase the speed of this particle to triple its kinetic energy?

A particle has a rest mass of 6.35 × 10 − 27 kg and a momentum...

A particle has a rest mass of 6.35 × 10 − 27 kg and a momentum of 5.73 × 10 − 18 kg ⋅ m/s . Determine the total relativistic energy of the particle. E = J Find the ratio of the particle's relativistic kinetic energy to its rest energy. K E rest =

A system of mass 10 kg undergoes a process during which there is no work, the...

A system of mass 10 kg undergoes a process during which there is no work, the elevation decreases by 50 m, and the velocity increases from 15 m/s to 50 m/s. The specific internal energy decreases by 5 kJ/kg and the acceleration of gravity is constant at 9.8 m/s2. Determine the change in kinetic energy, in kJ, and the amount of energy transfer by heat for the process, in kJ.

a) Consider an alpha-particle of mass mα and kinetic energy 4.7 MeV. Calculate its velocity and...

a) Consider an alpha-particle of mass mα and kinetic energy 4.7 MeV. Calculate its velocity and compare it to the speed of light. [2 marks] b) Calculate the de Broglie wavelength of the alpha-particle in a) and express your result in fm (femtometer).