A proton (q = 1.6 X 10-19 C, m=1.67 X 10-27 kg) moving with constant velocity enters a region containing a constant magnetic field that is directed along the z-axis at (x,y) = (0,0) as shown. The magnetic field extends for a distance D = 0.52 m in the x-direction. The proton leaves the field having a velocity vector (vx, Vy) = (4.4 X 10° m/s, 1.6 X 10 m/s). B X. 7) What is v, the magnitude of the velocity of the proton as it entered the region containing the magnetic field? m/s 8) What is R, the radius of curvature of the motion of the proton while it is in the region containing the magnetic field? 9) What is h, the y co-ordinate of the proton as it leaves the region conating the magnetic field? m

Needed to be solved 7,8 and 9 correctly in 1 hour and get thumb up please show neat and clean work

Transcribed Image Text:

A proton (q = 1.6 X 10-19 C, m= 1.67 X 10-27 kg) moving with constant velocity enters a region containing a constant magnetic field that is directed along the z-axis at (x,y) = (0,0) as shown. The magnetic field extends for a distance D = 0.52 m in the x-direction. The proton leaves the field having a velocity vector (Vx, Vy) = (4.4 X 10° m/s, 1.6 X 10 m/s). y B h 7) What is v, the magnitude of the velocity of the proton as it entered the region containing the magnetic field? m/s 8) What is R, the radius of curvature of the motion of the proton while it is in the region containing the magnetic field? 9) What is h, the y co-ordinate of the proton as it leaves the region conating the magnetic field? 10) What is B, the z-component of the magnetic field? Note that B, is a signed number. T 11) If the incident velocity v were increased, how would h and 0 change, if at all? a. h and 0 would both increase b. h and 0 would both decrease c. h would increase and 0 would decrease d. h would decrease and 0 would increase e. Neither h nor 0 would change