
A particle (q = 5.0 nC, m = 3.0 mg) enters a region where the magnetic field has components Bx = 0, By = 0 and B. = 4.0 T. The initial velocity of the particle as it enters this region is given by Vx = 7.0 m/s, Vy = 6.0 m/s and V2 = 8.0 m/s. (a.) What is the magnitude of the magnetic force and the magnitude of the acceleration of the particle? (b.) What is the radius...
A particle (q= 5.0 nC, m = 3.0 mg) enters a region where the magnetic field has components By = 0, By = 0 and B, = 4.0 T. The initial velocity of the particle as it enters this region is given by Vx - 7.0 m/s, Vy = 6.0 m/s and vz = 8.0 m/s. (a.) What is the magnitude of the magnetic force and the magnitude of the acceleration of the particle (b.) What is the radius and...
1)A particle of charge = +9 nC and mass = 5 micro-gram) moves with a velocity V = 3.1 i km/s in a region where the magnetic field is B = 8.9 i + 7.1 j mT. What is the magnitude of the force on the particle due to the magnetic field? Write your answer in nano-newtons. 2)A particle of charge = +1.1 nC and mass = 9 micro-gram) moves with a velocity V = 2.4 i km/s in a...
Question 2 (7 points) A charged particle (m = 5.0 g and q = -70 uC) moves horizontally in a straight line with a constant speed of 30 km/s in a region where the free-fall gravitational acceleration is 9.8 m/s? downward, the electric field is 700 N/C upward, and the magnetic field is perpendicular to the velocity of the particle. What is the magnitude of the magnetic field in this region? zero 12 mT 23 mT 35 mT 47 mT
The magnetic field in a region of space is specified by its x, y, and z components which are respectively B_x = 0.138 T, B_y = 0.162 T, and B_z = 0.200 T. If a 30.0-cm wire carrying a current of 3.00 A is oriented along the e-axis with the current in the -z direction, determine the magnitude and direction of the force acting on the wire. magnitude N direction degree counterclockwise from the +x-axis
A particle with a charge of 3.0 C moves through a uniform magnietic field. At one instant the velocity of the particle is ?⃑ = (3.0?̂+ 4.0?̂− 6.0?̂) m/s and the magnetic force on the particle is ?⃑ ? = (−8.0?̂+ 3.0?̂+ 2.0?̂) N. In unit-vector notation, determine the magnetic field B.
A charged particle moves along the x-axis through a region with a uniform magnetic field that is oriented to lie in the x-y plane. Part a) Assume that the particle has a net charge of +669 μC and is moving with a velocity of 464 m/s in the +x direction at a particular instant. In that region of space, there is a uniform magnetic field of 1.91T directed in the x-y plane at an angle of +29.8 ∘ relative to...
A negative charge q = -2.80 Times 10^-6 C is located at the origin and has velocity U^Rightarrow = (7.50 Times 104 m/s) i^+ ((-4.90) Times 10^4 m/s) j^. At this instant what is the magnetic field produced by this charge at the point x = 0.140 m, y = -0.280 m, z = 0? Enter the x, y, and z components of the magnetic field separated by commas. B_x B_y, B_z = mu T
Q3
Q3 A Particle(9=5.012.m= 3.0 mg) enters a region where the magnetic field has components Buz O By-O and Buz4.01 The initial velocity of the particle as it enters Elis region is given by V = 70 mis. Vy = 6 mls V2 = 8.0 mis A what is the magnitude of the magnetic force and the magnitude of the acceleration of the Particle ? B what is the radius and Pitch of the helical trajectory of this partide ?
A 6.60 −μC particle moves through a region of space where an electric field of magnitude 1300 N/C points in the positive x direction, and a magnetic field of magnitude 1.24 T points in the positive z direction. If the net force acting on the particle is 6.25×10−3 N in the positive xx direction, find the components of the particle's velocity. Assume the particle's velocity is in the x-y plane. vx, vy, vz =