A positive charged particle carries 0.7 JC and moves with a kinetic energy of 0.06 J....
An electron has a kinetic energy of 1.81E-17 J. It moves on a circular path that is perpendicular to a uniform magnetic field of magnitude 5.09E-5 T. Determine the radius of the path.
a) Explain why a charged particle is moving in a circular path in a uniform b) A particle of charge 3.2 x 10-19 C and velocity of 2 x 105 ms-1 enters a magnetic field uniform magnetic field of magnetic field strength, 0.2 T. If the particle moves in circular path of radius 4.0 cm, calculate the mass of the charged particle.
A charged particle moves through a velocity selector at a constant speed in a straight line. The electric field of the velocity selector is 3.20×10^3 N/C, while the magnetic field is 0.250 T. When the electric field is turned off, the charged particle travels on a circular path whose radius is 4.60 cm. Find the charge-to-mass ratio of the particle.
20. A charged particle has a charge of q+2e and a mass of 4.00 u, where u is the atomic mass unit, with 1u 1.661x10-27 kg. Suppose the charged particle travels in a circular path of radius 4.50 cm in a uniform magnetic field with B1.20 T. Which of the following is TRUE? A) The particle's speed is 1.30x105 m/s B) The period of revolution is 0.409 us. C) The particle's kinetic energy is 0.140 MeV. D) The particle has...
Please answer quickly, will upvote immediately! A charged particle moves through a velocity selector at a constant speed in a straight line. The electric field of the velocity selector is 3.56E+3 N/C, while the magnetic field is 0.332 T. When the electric field is turned off, the charged particle travels on a circular path whose radius is 4.58 cm. Calculate the charge-to-mass ratio of the particle. Submit Answer Tries 0/10
a) A charged particle moves through a velocity selector at a constant speed in a straight line. The electric field of the velocity selector is 4070 N/C, while the magnetic field is 0.344 T. When the electric field is turned off, the charged particle travels on a circular path whose radius is 6.06 cm. Find the charge-to-mass ratio of the particle. b) The 1600-turn coil in a dc motor has an area per turn of 2.3 × 10-2 m2. The...
(c19p30) In a high-energy physics experiment, a subnuclear particle moves in a circular arc of 3.05×10-1 m radius perpendicular to a magnetic field of 2.70×10-2 T. The kinetic energy of the particle is determined to be 4.61×10-15 J. Identify the particle from its mass. The masses of the positron, pion, kaon, proton, muon and Dmeson are 9.10×10-31kg, 2.50×10-28 kg, 8.84×10-28 kg, 1.67×10-27 kg, 1.88×10-28 kg and 3.35×10-27 kg, respectively. Assume that the particle is known to have a positive charge...
In a nuclear experiment a proton with kinetic energy 5.0 MeV moves in a circular path in a uniform magnetic field. If the magnetic field is B = 2.2 T what is the radius of the orbit? What energy must an alpha particle (q = +2e, m = 4.0 u) and a deuteron (q = +e, m = 2.0 u) have if they are to circulate in the same orbit? Energy of the alpha?(MeV) Energy of the deuteron?
Consider a charged particle of mass m and positive charge Q, which moves in the presence of a uniform magnetic field, and a uniform E-field, both of which point along the positive z-axis. At t=0, the particle is at the origin: x=y=z=0. (a) Suppose that at t=0, v is 0. Describe the subsequent motion of the charged particle both quantitatively and qualitatively. (b) Now suppose that at t=0, v is non-zero and directed along positive x. Again, describe the subsequent...
A proton with a kinetic energy of 6.1 ✕ 10-16 J moves perpendicular to a magnetic field of 3.9 T. What is the radius of its circular path? cm A wire with a current of 2.8 A is at an angle of 38.5° relative to a magnetic field of 0.88 T. Find the force exerted on a 2.13 m length of the wire. N