I don't understand how my professor got his answer he used the equation circular acceleration is a = (v^2) / r where v is velocity and r is the radius. Also a = (qvB) / m. Can you please explain why the magnitude is mv/rB #5 - If the field from problem #4 is tilted to make a 30degree angle with the z-axis (i.e. the field is now in the X-Zplane), which expression gives the magnitude of thecharge on the particle?B = B (ti +)mvrBCORRECT2mvPCrB2mvq =V31BPCV3mvq =2r B

The lorentz force on the charged particle interms of magnitude is F = qvB This…

Answered: #5 - If the field from problem #4 is…

Similar questions

Needs Complete typed solution with 100 % accuracy.
On the map, let the +x-axis point east and the +y-axis north. An airplane flies at 880 km/h northwestward direction (i.e., midway between north and west). Can you help me visualize the components of the first velocity, and when the plane flies due south at the same velocity. I understand the answer will be -622.25 for the run, meaning 880*cos(45) for x -axis; the y axis north is 880*sin(45) resulting in 622.5 Please help me visualize the first and second velocity when the plane flies due south at the same velocity? Help me to visualize where one of the velocities due south is zero, and the other is whatever it is. I am afraid I can properly visualize or understand in simple terms what is asked. My point can you help to understand the right angle theorem to the angle.
A toy racecar races along a circular race track that has a radius of 26 meters. The racecar starts at the 3-o'clock position of the track and travels in the CCW direction. Suppose the car has swept out 2.05 radians since it started moving. The racecar is how many radius lengths to the right of the center of the race track? radius lengths The racecar is how many meters to the right of the center of the race track? meters The racecar is how many radius lengths above the center of the race track? radius lengths The racecar is how many meters above the center of the race track?
Needs Complete typed solution with 100 % accuracy.
A microscopic spherical dust particle of radius r and mass m is moving in outer space at a constant speed v. A wave of light strikes it from the opposite direction of its motion and gets absorbed. Part A) Assuming the particle decelerates uniformly to zero speed in time t, write an equation for the average electric field amplitude in the light.
1 of 1. ▸ Part A Locate the centroid of the parabolic area. Take a = 7 in, h=19 in (Figure 1) Express your answer to three significant figures and include the appropriate units. Value Submit A 4 Provide Feedback Bequest Answer → Units
Read the question carefully and give me right solution according to the question. A particle travels around a circular path having a radius of 40 m. If it is initially traveling with a speed of 10 m/s and its speed then increases at a rate of (0.05 v) m/s 2, determine the magnitude of the particle’s acceleration at t = 3 s. Round your answer to 2 decimal places.
On the map, let the +x-axis point east and the +y-axis north. An airplane flies at 880 km/h northwestward direction (i.e., midway between north and west). Find the components of its velocity. Enter the x and y components of the velocity separated by a comma. I understand the quadrant, and origin but not how to then figure components of airplane's velocity. Can you simply get me up to the speed?
Hi, I need help trying to figure out these questions. © Determining magnitude of axis vectorsGx, = 0 & Gy, = 47. Determine G.G=- Determining the non-zero component of an axis vectorE has a magnitude of 26 & Ey = 0. Determine the two possible values for Ex
Hiker Harry walks 4 km east then 7 km 25o north of west. What is the magnitude and direction of Harry’s position after his hike as measured from his starting point? Give the angle measured relative to east. For example 90° means directly north.
how do i solve this problem
Plz solve correctly

SEE MORE QUESTIONS

#5 - If the field from problem #4 is tilted to make a 30 degree angle with the z-axis (i.e. the field is now in the X-Z plane), which expression gives the magnitude of the charge on the particle? B = B (ti + 4:) mv rB CORRECT 2mv PC rB 2mv PC V3r B q = V3mv 2rB