A proton and an alpha particle are released from rest when they are 0.210 nm apart....

A proton and an alpha particle are released from rest when they are 0.210 nm apart. The alpha particle (a helium nucleus) has essentially four times the mass and two times the charge of a proton.

Find the maximum speed of proton.

Find the maximum speed of alpha particle.

Find the maximum acceleration of proton.

Find the maximum acceleration of alpha particle.

Expert Solution

genius_generous answered 2 years ago

A proton and an alpha particle are released from rest when they are 0.240 nm apart....

A proton and an alpha particle are released from rest when they are 0.240 nm apart. The alpha particle (a helium nucleus) has essentially four times the mass and two times the charge of a proton. Part A Find the maximum speed of proton. vmax = m/s Part B Find the maximum speed of alpha particle. vmax = m/s Part C Find the maximum acceleration of proton. amax = m/s2 Part D Find the maximum acceleration of alpha particle. amax...

A Lithium-5 atom at rest decays into a proton and an \alpha particle with the release...

A Lithium-5 atom at rest decays into a proton and an \alpha particle with the release of 3.15×10-13 J of kinetic energies total of the proton and the \alpha particle. Determine the velocities of the proton and the alpha particle after the decay. You can assume the masses are m \alpha = 4mp = 6.64×10-27 kg.

a proton is released from rest at a positivity charged plate that is in a parallel...

a proton is released from rest at a positivity charged plate that is in a parallel plate capacitor . it hits the negative charged plate after 2.54 x10^-6 s. the electric field is 134 N/C between the plates 1) find the magnititude of the surface charge density at each plate 2) what is the magnitude of force that the proton feels moving through plates 3)what is the proton’s final speed as it hits the negative plate 4)what is the potential...

Part A) A particle of charge +2.1 μC is released from rest at the point x...

Part A) A particle of charge +2.1 μC is released from rest at the point x = 72 cm on an x axis. The particle begins to move due to the presence of a charge Q that remains fixed at the origin. What is the kinetic energy of the particle at the instant it has moved 12 cm if (a)Q = +66 μC and (b)Q = –66 μC? Part B) Identical 53 μC charges are fixed on an x axis...

A particle of charge +9.6 μC is released from rest at the point x = 61...

A particle of charge +9.6 μC is released from rest at the point x = 61 cm on an x axis. The particle begins to move due to the presence of a charge Q that remains fixed at the origin. What is the kinetic energy of the particle at the instant it has moved 21 cm if (a)Q = +66 μC and (b)Q = –66 μC?

A particle of charge ?7.5 mC is released from rest at the point x ? 60...

A particle of charge ?7.5 mC is released from rest at the point x ? 60 cm on an x axis. The particle begins to move due to the presence of a charge Q that remains fixed at the origin. What is the kinetic energy of the particle at the instant it has moved 40 cm if (a) Q ? ?20 mC and (b) Q ? ?20 mC?

A proton is released from rest inside a region of constant, uniform electric field ?1 pointing...

A proton is released from rest inside a region of constant, uniform electric field ?1 pointing due north. 34.8 s after it is released, the electric field instantaneously changes to a constant, uniform electric field ?2 pointing due south. 8.49 s after the field changes, the proton has returned to its starting point. What is the ratio of the magnitude of ?2 to the magnitude of ?1? You may neglect the effects of gravity on the proton.

A proton (H+) is released at rest at a location where the electric potential is measured...

A proton (H+) is released at rest at a location where the electric potential is measured to be 3000 V. The energy gained by the proton = _________ J BLANK-1 = __________ eV BLANK-2 The speed gained by the proton due to this potential is ______ m/s?

Two Jupiter-size planets are released from rest 7.00×1010 m apart. What are their speeds as they...

Two Jupiter-size planets are released from rest 7.00×1010 m apart. What are their speeds as they crash together?

Two equally charged particles, held 3.0 × 10-3 m apart, are released from rest. The initial...

Two equally charged particles, held 3.0 × 10-3 m apart, are released from rest. The initial acceleration of the first particle is observed to be 8.5 m/s2 and that of the second to be 12 m/s2. If the mass of the first particle is 8.7 × 10-7 kg, what are (a) the mass of the second particle and (b) the magnitude of the charge of each particle?

Question