A charged particle of charge 4.2 mC and mass 4.7 g is subjected to a magnetic...

A positively charged particle of mass 5.60 10-8 kg is traveling due east with a speed...

A positively charged particle of mass 5.60 10-8 kg is traveling due east with a speed of 70 m/s and enters a 0.43-T uniform magnetic field. The particle moves through one-quarter of a circle in a time of 3.60 10-3 s, at which time it leaves the field heading due south. All during the motion the particle moves perpendicular to the magnetic field. (a) What is the magnitude of the magnetic force acting on the particle? N (b) Determine the...

charged particle mass m charge q moves along horizontal surface with coefficient of kinetic friction μ....

charged particle mass m charge q moves along horizontal surface with coefficient of kinetic friction μ. magnetic field strength B applied such that magnetic force acts into the surface. If initial speed of particle is u show that time for the particle to stop is (m/(μqB))*ln(1+quB/(mg))

A charged particle (q, m) enters a uniform magnetic field B (extends upto a length w)...

A charged particle (q, m) enters a uniform magnetic field B (extends upto a length w) at right angles with speed v . The speed of the particle in magnetic field does not change. But it gets deviated in the magnetic field in a circular path and leaves the magnetic field with a angle theeta. Its lateral displacement is D. Show that D= mv/qB(1-(1-(qbw/mv)^2)^1/2)  

A charged particle is in continuous circular motion in a plane perpendicular to a magnetic field....

A charged particle is in continuous circular motion in a plane perpendicular to a magnetic field. Draw a sketch with the magnetic field pointing into the page, and the particle travelling counter-clockwise in the plane of the page. Given a radius of motion of 0.0231 m, a magnetic field strength of 0.00500 T, a mass of 8.84 x 10-26 kg on the particle, and a linear speed of 209 m/s, determine the magnitude and sign of the particle’s charge.

Which of the following statements concerning the motion of a charged particle inside a uniform magnetic...

Which of the following statements concerning the motion of a charged particle inside a uniform magnetic field is correct? (Assume the direction of initial velocity is parallel to the B-feild) 1)the charge moves in a circular orbit 2)the magnitude of the velocity does not change with time 3)the larger the initial speed of the particle, the larger the radius of the orbit --2 only --2 & 3 --1 & 2 --1 & 3 -- all are true

consider a charged particle with a charge of 38.8 mC, a mass of 2.25 kg, and...

consider a charged particle with a charge of 38.8 mC, a mass of 2.25 kg, and a velocity of 6.10 m/s moving parallel to a magnetic field of 36.5 T pointing towards the -z direction. Find the force on the moving particle a. 19.4 N b. 0 N c. 41.9 N d. 8.64 N What happens to the resistivity of a metal wire if you double its length and double its diameter? a. the resistivity halves b. the resistivity doubles...

A particle with charge q = 6.0 nC   and mass m = 3.0×10−11 kg which is...

A particle with charge q = 6.0 nC   and mass m = 3.0×10−11 kg which is initially at rest accelerates through a potential difference V = 100 V and enters into a region 0 < x < d, where there is a uniform magnetic field of magnitude B = 1.5 T with direction perpendicular to the plane of the paper and inward. Use the coordinate system shown in the figure to answer the following questions. (Gravitational force on the particle...

A particle, of mass 4.11×10-25 kg, has the same charge as an electron, but positive, moves...

A particle, of mass 4.11×10-25 kg, has the same charge as an electron, but positive, moves in a circle of radius 8.03m at constant speed, due to the action a magnetic field of 0.0036 Tesla, directed perpendicular to the plane of the circle. What is the speed of the particle in m/s?

A negatively charged particle of mass 6.11 x 10-23 kg is accelerated from rest through an...

A negatively charged particle of mass 6.11 x 10-23 kg is accelerated from rest through an electric potential difference of 3.5 x 103 V. After this, it enters a magnetic field of strength 0.80 T and undergoes uniform circular motion with a radius of 25 cm. Find the speed and charge of the particle 2.How many excess electrons does the particle have?

1) let's consider the example of a mass spectrometer, where we send a charged particle with...

1) let's consider the example of a mass spectrometer, where we send a charged particle with a speed v into a 2T magnetic field. The initial direction of the particle is to the right. If the magnetic field is directed to the left, what will be the direction of the force on the particle? 2) Suppose two different particles A and B moved along curved paths in the same magnetic field, A along one path with a radius r and...