Chapter 28, Problem 004 An alpha particle travels at a velocity of magnitude 800 m/s through...
An alpha particle travels at a velocity of magnitude 460 m/s through a uniform magnetic field of magnitude 0.056 T. (An alpha particle has a charge of charge of +3.2 × 10-19 C and a mass 6.6 × 10-27 kg) The angle between the particle's direction of motion and the magnetic field is 61°. What is the magnitude of (a) the force acting on the particle due to the field, and (b) the acceleration of the particle due to this...
An alpha particle travels at a velocity of magnitude 580 m/s through a uniform magnetic field of magnitude 0.046 T. (An alpha particle has a charge of charge of +3.2 × 10-19 C and a mass 6.6 × 10-27 kg) The angle between the particle's direction of motion and the magnetic field is 56°. What is the magnitude of (a) the force acting on the particle due to the field, and (b) the acceleration of the particle due to this...
Chapter 28, Problem 019 A certain particle is sent into a uniform magnetic field, with the particle's velocity vector perpendicular to the direction of the field. The figure gives the period T of the particle's motion versus the inverse of the field magnitude B. The vertical axis scale is set by Ts-52.3 ns, and the horizontal axis scale is set by B, 3.3T1. What is the ratio m/q of the particle's mass to the magnitude of its charge? -1 B-1...
Chapter 28, Problem 019 A certain particle is sent into a uniform magnetic field, with the particle's velocity vector perpendicular to the direction of the field. The figure gives the period T of the particle's motion versus the inverse of the field magnitude 8. The vertical axis scale is set by T.-22.8 ns, and the horizontal axis scale is set by B, - 5.5 | What is the ratio m/q of the particle's mass to the magnitude of its charge?...
Chapter 28, Problem 017 An alpha particle (q +2e, m 4.00 u) travels in a circular path of radius 3.57 cm in a uniform magnetic field with B = 1.63 T. Calculate (a) its speed, (b) its period of revolution, (c) its kinetic energy, and (d) the potential difference through which it would have to be accelerated to achieve this energy. (a) Number (b) Number (c) Number (d) Number Units Units Units Units
Chapter 28, Problem 017 An alpha particle (q +2e, m-4.00 u) travels in a circular path of radius 5.67 cm in a uniform magnetic field with B-1.29 T. Calculate (a) its speed, (b) its period of revolution, (c) its kinetic energy, and (d) the potential difference through which it would have to be accelerated to achieve this energy (a) Number (b) Number (c) Number (d) Number Units Units Units
An alpha particle has a positive charge that is double the charge of a proton, and a mass of 6.64 x 104 kg. At a particular instant, it is moving with a speed of 5.05 x 10 mys through a magnetic field. At this Instant, its velocity makes an angle of 61 with the direction of the magnetic field at the particle's location. The magnitude of the field is 0.160 T. (a) What is the magnitude of the magnetic force...
Chapter 28, Problem 019 A certain particle is sent into a uniform magnetic field, with the partidle's velocity vector perpendicular to the direction of the field. The figure gives the period T of the particle's motion versus the inverse of the field magnitude B. The vertical axis scale is set by Ts= 21.3 ns, and the horizontal axis scale is set by Bs 1 7.9 T 1 what is the ratio m g of the particle's mass to the magnitude...
Chapter 28, Problem 010 A proton travels through uniform magnetic and electric fields. The magnetic field is in the negative x direction and has a magnitude of 2.76 mt. At one instant the velocity of the proton is in the positive y direction and has a magnitude of 1890 m/s. At that instant, what is the magnitude of the net force acting on the proton if the electric field is (a) in the positive z direction and has a magnitude...
6 A charged particle of mass 2 kg and 1 C starts at the origin with velocity 3a, m/s and travels in a region of uniform magnetic field B 10a, Wb/m. At r 4 s, caleulate (a) The velocity and acceleration of the particle (b) The magnetic force on it (e) Its K.E. and location (d) Find the particle's trajectory by eliminating t (e) Show that its K.E. remains constant 6 A charged particle of mass 2 kg and 1...