Calculate the range of a 6.3 MeV alpha particle in aluminum, nickel and platinum.

calculate the range of a 6.3MeV alpha particle in: a) aluminum; b) nickel; and c) platinum

calculate the range of a 6.3MeV alpha particle in: a) aluminum; b) nickel; and c) platinum

calculate the range of a 6.3MeV alpha particle in: a) aluminum; b) nickel; and c) platinum

calculate the range of a 6.3MeV alpha particle in: a) aluminum; b) nickel; and c) platinum

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).

Find the range (in centimeters) in aluminum of 4.0-MeV 3He and 3H.

Find the range (in centimeters) in aluminum of 4.0-MeV 3He and 3H.

When an alpha particle collides elastically with a nucleus the nucleus recoils. A 5.00-MeV alpha particle...

When an alpha particle collides elastically with a nucleus the nucleus recoils. A 5.00-MeV alpha particle has a head-on elastic collision with a gold nucleus, initially at rest. (a) What is the distance of closest approach of the alpha particle to the recoiling nucleus? (Hint: At closest approach the alpha particle and the recoiling nucleus are moving with the same velocity in the laboratory reference frame.) (b) How does this compare with the result one gets if, as in Example...

Each alpha particle in a beam of alpha particles has a kinetic energy of 5.0 MeV....

Each alpha particle in a beam of alpha particles has a kinetic energy of 5.0 MeV. Through what potential difference would you have to accelerate these alpha particles in order that they would have enough energy so that if one is fired head-on at a gold nucleus it could reach a point 1.0x10^-14 m from the center of the nucleus? I know that the answer is delta V = 9e6 Volts I am struggling to get past KEi = 5.0...

Consider an alpha particle emission from a 238U nucleus, which emits a 4.2 MeV α particle....

Consider an alpha particle emission from a 238U nucleus, which emits a 4.2 MeV α particle. The α particle is contained inside the nuclear radius rN≈ 7 x 10-15m. Find the barrier height and the distance the α particle must tunnel and use the square-top potential to calculate the tunneling probability

Estimate the time required for a 5 MeV alpha particle to slow down and stop in...

Estimate the time required for a 5 MeV alpha particle to slow down and stop in silicon. Repeat for the same particle in hydrogen gas.

When an alpha particle collides elastically with a nucleus, the nucleus recoils. Suppose a 4.35 MeV...

When an alpha particle collides elastically with a nucleus, the nucleus recoils. Suppose a 4.35 MeV alpha particle has a head-on elastic collision with a gold nucleus that is initially at rest. What is the kinetic energy of (a) the recoiling nucleus and (b) the rebounding alpha particle? The gold nucleus has a mass of 197 u and the alpha has a mass of 4.0 u.

A 5 - MeV alpha particle is absorbed by 1 gram of water; estimate the dose...

A 5 - MeV alpha particle is absorbed by 1 gram of water; estimate the dose in Gray and the Equivalent dose in Sieverts?