what is the factor of change in the magnitude of the force F by an electric field E on a positive charge q if one doubles the magnitude of E and triples the value of q
A proton enters a uniform magnetic field and follows trajectory B. Adeuteron (same charge and twice the mass) enters the magnetic field in the same way and with the same velocity as the proton. Which of the following is the right trajectory for the deuteron? CITIXYXXX XX E XXX 107 PM AZ OO A charged particle moves into a region...
Use MATLAB to :
("j" is the imaginary number.) The term lo is the fundamental frequency of the periodic signal, 2/T, where T is the period. Frequencies nlo, where n is an integer, are the harmonics. This infinite sum is an exact representation of the original function. If we use a finite sum, where n goes from -N to N,...
A
conducting rod of mass m and resistance R, slides with no friction
on an horizontal rail of width l and negligible resistance. At t=0,
the rod passes O with a velocity v0. The rail is closed from one
side only, so that the rod actually forms a closed circuit. A
constant magnetic field B is present everywhere, perpendicular to...
Wednesday Homework Problem 9.7 The figure to the right shows a square coil of wire in the plane of the page and a constant magnetic field pointing out of the page. The coil rotates in the direction drawn. The coil develops an angular velocity of 250Hz about its axis. For this problem assume 0o 0. The earth's magnetic field strength...
(BEKP 2453) QUESTION 2 Figure Q2 (a) shows a rectangular conducting loop is lies on a uniform magnetic field of B RBo. The loop is allowed to pivot on centre of arm 2 and 4. Derive the force equation on arm 1 and 3. ) (7 marks) in Prove that the torque of the loop is not influence by force...
2. The ends of uniform rod AB can slide along the horizontal floor and the inclined plane. At the instant shown, the end A is moving at a constant velocity of 2.5 to the left. Using the concept of the instantaneous center of zero velocity, determine (a) the angular velocity of the rod and (b) the velocity of end B...
The circular disk rotates about its center O. For the
instant represented, the velocity of A is
vA = 9.0j
in./sec and the tangential acceleration of B is
(aB)t =
4.0i in./sec2. Write the vector
expressions for the angular velocity ? and angular
acceleration ? of the disk. Use these results to
write the vector expression for the acceleration
aC...
Instead of assuming that a one-dimensional
particle has no energy (v(x)=0), consider the case of a
one-dimensional particle which has finite, but constant, energy
V(x)= V sub zero.. Show that the ID particle in a box wave
functions. n(x)= A sin ((pi n x)/a). Also solve the Schrödinger
equation for this potential, and determine the energies En
Problem 2: Particle...
Consider the following 4 types of telescopes: 1. Visible light telescope 2. Infrared telescope 3. X-ray telescope 4. Radio wave telescope For each of these telescopes explain/discuss the following points: Give an example of what objects one would observe with this type of telescope. Discuss the location one would need to choose for this telescope. Consider the following options and...