An election is placed into a region permeated by a Uniform electric field (E=E x) and...

In a certain region of space, there is a uniform electric field E= 4.3 x 104...

In a certain region of space, there is a uniform electric field E= 4.3 x 104 V/m to the east and a uniform magnetic field B = .0073 T to the west. a) What is the electromagnetic force on an electron moving north at 3.7 x 107 m/s? b) With the electric and magnetic fields as specified, is there some velocity such that the net electromagnetic force on the electron would be zero?

A positive charge particle ?enters a region with both a uniform electric field? and magnetic field...

A positive charge particle ?enters a region with both a uniform electric field? and magnetic field ?. If the direction of ?is parallel to ?, the path of the particle will be A. circle B. parabolaC. helix D. sinusoidal E. straight line

A point charge q is moving in uniform electric field (E0 in the z-direction) and uniform...

A point charge q is moving in uniform electric field (E0 in the z-direction) and uniform magnetic field (B0 field in the x-direction). (i) What is the force acting on the charge particle? Find equations of motion for the charge particle. (ii) Assume that initially the charge is placed the origin and has initial velocity (E0/2B0) in the y-direction. Determine position and velocity of the charge particle as a function of time. (iii) Find the trajectory of the particle and...

1. Electric fields are E(x, y, z ;t) = Re [Es(x, y, z)ejwt] The magnetic field...

1. Electric fields are E(x, y, z ;t) = Re [Es(x, y, z)ejwt] The magnetic field is H(x, y, z ;t) = Re [Hs(x, y, z)ejwt]. Here, let's say Es and Hs are the pagers of electric and magnetic fields. (a) describe the Maxwell calculation using a pager. (b) the medium is homogenous and the source free zone is pager-based. Describe Maxwell calculation. (c) Using (b), electric field Es and magnetic field HS Helmholtz calculation Show satisfaction with ( k2...

Flowing through all space is an electric field E(x, y, z) = αyz(x hat) + αxz(y...

Flowing through all space is an electric field E(x, y, z) = αyz(x hat) + αxz(y hat) + αxy(z hat). Show that the curl of the electric field vanishes, ∇ × E = 0. Use the definition of electric potential to find the potential difference between the origin and r = x(x hat) + y(y hat) + z(z hat), V (r) − V (0) = −(integral from 0 to r of (E · dl)). As the line integral is independent...

A particle of mass m is placed at rest at the origin in a uniform horizontal...

A particle of mass m is placed at rest at the origin in a uniform horizontal magnetic field in the xˆ direction, B~ = B◦xˆ, in a uniform vertical gravitational field that is pointed down, ~g = −gzˆ. Find x(t), y(t) and z(t). Some hints: this problem is very similar to a charged particle in the presence of crossed E and B fields, and the answer turns out to be a curve known as a “cycloid.”

A proton moves through a region containing a uniform electric field given by E with arrow...

A proton moves through a region containing a uniform electric field given by E with arrow = 46.0 ĵ V/m and a uniform magnetic field B with arrow = (0.200 î + 0.300 ĵ + 0.400 k) T. Determine the acceleration of the proton when it has a velocity v with arrow = 190 î m/s.

A proton moves through a region containing a uniform electric field given by E with arrow...

A proton moves through a region containing a uniform electric field given by E with arrow = 60.0 ĵ V/m and a uniform magnetic field B with arrow = (0.200 î + 0.300 ĵ + 0.400 k) T. Determine the acceleration of the proton when it has a velocity v with arrow = 210 î m/s. a with arrow = m/s2

1. A particle of positive charge q and mass m enters parallel uniform electric and magnetic...

1. A particle of positive charge q and mass m enters parallel uniform electric and magnetic fields (of magnitudes E and B, respectively) both directed in the +z direction with a velocity v = v0i perpendicular to both fields. (a) What is the the particle’s initial acceleration? You can give your answer as a vector in component form. (b) What is the radius of the particle’s path (looking down the z-axis) if the magnetic field is B = Bk? Does...

An electron (9.11 x 10-31 kg) is placed at rest in a region containing a uniform...

An electron (9.11 x 10-31 kg) is placed at rest in a region containing a uniform electric field ⃗E and a uniform magnetic field of B⃗=(1.50T ) ^ i+(−2.80T) ^ j+(−0.70T) ^k . The electron reaches a velocity v=3400m/s ^ j after 0.200 nanoseconds have passed. a. Find the electric field. ________________________ b. If the electric field is being produced by a parallel plate capacitor with square plates that are 0.30 m on each side and separated by 0.300 mm...