A(n) 14-kg particle has energy 92,725 kg (2. Calculate gamma (y). Question 16 1 pts A...
Question 21 5 pts Calculate the kinetic energy (in MeV) of an alpha particle whose DeBroglie wavelength is equal to 1 femtometer (1E-15 m), which is about the size of a nucleus. The mass of the alpha particle is 6.65E-27 kg. O 3.3E-11 MeV O 5.3E-30 MeV O 49.8 MeV . 0103 MeV O 206 MeV
Question 21 5 pts Calculate the kinetic energy (in MeV) of an alpha particle whose DeBroglie wavelength is equal to 1 femtometer (1E-15 m), which is about the size of a nucleus. The mass of the alpha particle is 6.65E-27 kg. O 3.3E-11 MeV O 5.3E-30 MeV O 49.8 MeV O 103 MeV O 206 MeV
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 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 21 5 pts Calculate the kinetic energy (in MeV) of an alpha particle whose DeBroglie wavelength is equal to 1 femtometer (1E-15 m), which is about the size of a nucleus. The mass of the alpha particle is 6.65E-27 kg. 3.3E-11 MeV 5.3E-30 MeV 49.8 MeV 103 MeV 206 MeV Question 22 5 pts The electronic configuration for boron is 1s 2s22p1, and the electronic configuration for aluminum is 1s22s22p6 352 3p1. It requires 8.298 eV to remove the...
-31 1 Electrons have a rest mass of 9.1095x103"kg(0.511 MeV/c2) and an energy of 0.511 MeV million electron volts) when at rest. In a colliding beam experiment, a beam of electrons accelerated to a high speed is sent toward a beam of antielectrons (same mass as electrons) moving in the opposite direction at the same speed. a.) Experimenters hope to create the J/y particle that has a rest mass energy of 3097 MeV through one of these collisions. The J/y...
2. Cirele the designator in front of the most correct answer from the list following each question or statement. (a) Classically, a particle of mass 1 u that has a kinetic energy of 0.5 MeV has what momen- tum? [10 points i. 1.631 x 10-20 kg m-1 ii. 1.631 x10-10 kg m s-1 ii. 3.262 x 10-20 kg m -1 iv. 3.262 × 10-10 kg m s-1 . 1.00 kg m s-1 (b) What is the mean free path length...
-14 points SeiPsETo J0 The dimensions of the quantity kinetic energy, designated by K, are kg m2/s2. It can be written in terms of the momentum p and mass m as K =-. 2m (a) What are the units of momentum in terms of fundamental SI units? (Use the following as necessary: kg, m, and s.) (b) Force is meas sured in units of newtons, N, where 1 N 1 kg m/s2. What are the units of momentum p in...
Scattering #1 Consider the "downstep" potential shown. A particle of mass m and energy E, incident from the left, strikes a potential energy drop-off of depth Vo 0 (2 pts) Using classical physics, consider a particle incident with speed vo. Use conservation of energy to find the speed on the right vf. ALSO, what is the probability that a given particle will "transmit" from the left side to the right side (again, classically)? A. B. (4 pts) This problem is...
1) A 12.3 kg particle is undergoing simple harmonic motion with an amplitude of 1.86 mm. The maximum acceleration experienced by the particle is 7.93 km/s2. (a) Find the period of the motion. (b) What is the maximum speed of the particle? (c) Calculate the total mechanical energy of this simple harmonic oscillator. 2) The orbit of the Moon around the Earth as projected along a diameter can be viewed as simple harmonic motion. Calculate the effective force constant k...