Active Figure Motion of a Charged Particle in a Uniform Magnetic Field The animation below illustrates...
A negatively charged particle in a uniform magnetic
field follows a circular path. The particle's speed is
240 m/s, the magnitude of the magnetic field is 0.28 T, and the
radius of the path is 830 m. a) Determine the mass of the
particle, given that its charge has a magnitude of 9.6 x 10^-4 C.
b) Choose the sketch which correctly shows the direction of the
magnetic field (in red) and the direction of the particle's
circular motion (in green)....
Calculate the radius of the circular orbit for the parameters specified below. Part (a) uses parameter values that can be set using the animation sliders, and you can use the animation to verify your calculations. Part (b) uses parameter values outside the range of the animation. (a) Let the magnitude of the magnetic field B = 0.4 T and let the charge be an electron moving with a speed of 3 x 10 m/s. x 10-5 m (b) Let the...
2. Consider a charged particle in a magnetic field. Let -e = -1.60 x 10-191C) be an electron, under B=0.1T) of a uniform magnetic field directed out of the page direction (o-direction). At t = 0[sec] the particle is at the origin, and the initial velocity is toward positive y direction. (a) Sketch the initial configuration of this electron (-e at the origin) into (x,y)-plane. Applying the right hand rule, indicate the magnetic force on this moving electron. Note that...
In the figure, a particle moves along a circle in a region of
uniform magnetic field of magnitude B = 4.9 mT. The particle is
either a proton or an electron (you must decide which). It
experiences a magnetic force of magnitude 3.0 × 10-15 N. What are
(a) the particle's speed, (b) the radius of the circle, and (c) the
period of the motion?
OB
In the figure, a particle moves along a circle in a region of
uniform magnetic field of magnitude B = 5.0 mT. The
particle is either a proton or an electron (you must decide which).
It experiences a magnetic force of magnitude 2.9 × 10-15
N. What are (a) the particle's speed,
(b) the radius of the circle, and
(c) the period of the motion?
OB
A particle with a charge of q = -5.68nC is moving in a uniform magnetic field of B? =( 2.20T ) z^. The magnetic force on the particle is measured to beF? =( 6.10?N )?y^. a) Calculate the x component of the velocity of the particle. b)What is the radius of the circular motion the particle will have in the magnetic field if the particle has a mass of 0.700g ? c)What is the period of this circular motion? d)What...
A uniform magnetic field points out of the page. A charged particle is moving in the plane of this page. If that particle travels in a clockwise spiral of increasing radius, then a reasonable explanation for this motion is (a) that particle is positively charged and slowing down. (b) that particle is positively charged and speeding up. (c) that particle is negatively charged and slowing down. (d) that particle is negatively charged and speeding up.
(a) You learned in class that the motion of a charged particle in a magnetic field is circular when the charge enters the field perpendicularly. If such a particle is a 2000000 eV proton entering a 0.35 T B-field. (a) What is the time for going a full round around the B-field? Enter your answer in ns to 3 sig fig without rounding. (b) What is R, the radius of the circular path? Enter your answer in cm to 3...
Two identical charged particles enter a uniform magnetic field. The velocity vector of each particle is perpendicular to the magnetic field. If particle 2 has a speed that is twice that of particle 1, how do the periods of their circular motion compare (T1/T2)?
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.