A proton moves through a region containing a uniform electric field given by = 30.0 ĵ V/m and a uniform magnetic field = (0.200 î + 0.300 ĵ + 0.400 ) T. Determine the acceleration of the proton when it has a velocity = 230 î m/s. could you also explain in detail the vector addition process?
There is a uniformly charged solid cylinder that has a net electric charge of 5 mC and is rotating around the longitudinal axis with 6 rad/s angular velocity. Find the magnitude of the magnetic dipole moment of the cylinder along the longitudinal axis if the radius of he cylinder is 0.6m and height of the cylinder is 0.8m. (Assumptions: Vacuum)(Answer...
1. Assume the magnetic field is created by a pair of coils with a current circulating across them. If that current was increased by a factor of 2, how would the radius of the trajectory change? 2. Assume the electron is accelerated using an electric potential between two parallel plates. If that voltage was increased by a factor of 100,...
Problem 1: An electron travels through the uniform magnetic field of field strength B = (2.5 i +3.5i) mt and electric field of field strength 4.00 IV/M. If the electron is moving with the velocity v= (1500 j + 2000 k)m/s. Calculate the net force acting on the electron in terms of unit vector notation.
In the Bainbridge mass spectrometer (Figure 1) , the
magnetic-field magnitude in the velocity selector is
0.510 T , and ions having a speed of 1.82×106m/s pass through
undeflected.
A) What is the electric-field magnitude in the velocity
selector?
b) If the separation of the plates
is 5.20mm, what is the potential difference between the plates?
Figure 1of 1 ㄧㄨㄨㄨ
A charged particle with mass M and charge q moves in the x – y plane. There is a magnetic field of magnitude B in the z-direction and an electric field E in the x-direction. (a) Find the Lagrangian in a form where there is an ignorable coordinate. (b) Find the energy function. Is it energy? Is it conserved? Explain...
The electric field intensity in a dielectric medium (u = H0, ε = ε0εr,) is given by E = 150 cos(109t + 8x) az V/m Calculate: (a) The dielectric constant, εr(b) The intrinsic impedance (c) The velocity of propagation (d) The magnetic field intensity vector, H (e) The Poynting vector (phasor form is also OK)
d1= 3 & d2= 2
Question 2 Find the solution 11(x, 1) for the 1-D wave equation aT = (a) 25-for -o <x < oo with initial conditions it (x,0) = A (x) , where A(x) is presented in the diagram below, and zero initial velocity. For full marks u(x,t) needs to be expressed as an equation involving x and...
Question 2 ul lu (a) Find the solution u(x,t) for the 1-D wave equationfor -oo < x < oo with initial conditions u (x,0)-A(x) , where A(x) s presented in the diagram below, and zero initial velocity. For full marks u(x,t) needs to be expressed as an equation involving x and t, somewhat similar to f(x) on page 85 of...
d1=8
d2=9
lu for Find the solution u(x,t) for the l-D wave equation-=- Qx2 25 at2 (a) oo < x < oo with initial conditions u(x,0)-A(x) , where A(x) Is presented in the diagram below, and zero initial velocity. For full marks u(x,t) needs to be expressed as an equation involving x and t, somewhat similar to f(x) on page...