Helical (1.5 x 105,0,2 x 105) v 3. Consider a proton at an instance with the velocity given above where B 0.1T (a)...
A proton of speed v = 6 x 105 m/s enters a region of uniform magnetic field of B = 0.5 T at an angle of $ = 60° to the magnetic field. In the region of the magnetic field the proton describes a helical path with radius R and pitch p (distance between loops). Find R and p.
X 107 kg) 27.25 A proton (q 1.60 x 1019 C, m 1.67 moves in a uniform magnetic field B (0.500 T)1. At t = 0 the proton has velocity components ux-1.50 × 105 m/s, vy=0, and vz = 2.00 × 105 m/s (see Example 27.4) (a) what are the magnitude and direction of the magnetic force acting on the proton? In addition to the magnetic field there is a uniform electric field in the +x-direction, E (+2.00 x 104...
A proton, moving with velocity v = -234 +6662 m/s encounters a magnetic field B = 3.252 UT. What is the radius of the circular part of the proton's trajectory?
DO NOT WRITE ABOVE THIS LINE 4 Traveling horizontally along the negative x direction (-x axis), an electron enters a region of constant B-f pointing "into* the page. What is the direction of the magnetic FORCE on the electron at that instant? 5. Consider a region of space where there is ONLY an uniform electric field. The electron enters the region with velocity that is perpendicular to the E-field. Is it possible to tell the shape of its trajectory/path of...
A proton, moving with velocity v=-235x+666z m/s encounters a magnetic field B=3.25z uT. What is the radius of the circular part of the proton's trajectory?
2. Consider a charged particle in a magnetic field. Let -e = -1.60 x 10-191C) be an electron, under B=0.1T) of a uniform magnetic field directed out of the page direction (o-direction). At t = 0[sec] the particle is at the origin, and the initial velocity is toward positive y direction. (a) Sketch the initial configuration of this electron (-e at the origin) into (x,y)-plane. Applying the right hand rule, indicate the magnetic force on this moving electron. Note that...
2. (i) The governing equation of motion for a single electron of mass m and charge -e moving with velocity y in uniform time-independent magnetic and electric fields is given by mayx B where B- (B, 0,0) di dr (a) Suppose the electron initially moves with velocity y (0,vo 0) in an electric field parallel to the magnetic field E-E-(E,00) By taking vf)-v +vi, where y i0, obtain v, and show that the speed vis constant. Describe (in words) the...
hone of the above a. 105 N b. 128 N c. 152 N v. How Jong must the rails be if the wire, starting from rest, is to reach a speed of 300 m/s? d. 13.46 m e. none of the above a. 0.599 m b. 5.92 m c. 9,56 m 8. A particle with unknown mass m and charge q moves with constant speed v 2.9 x 10° m/s as it passes undeflected through a pair of parallel plates...
Given the velocity field V = 101 +(x² + y2); - 2xy k [m/s] a) b) c) Is the flow steady or unsteady? Is this motion kinematically possible for an incompressible fluid? Do you think that velocity field can represent a potential flow at specific positions of(x,y)? What is the acceleration of a particle at position (x, y, z) = (3, 1, 0) m? d)
A proton (g = 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 = 0.67 m in the x-direction. The proton leaves the field having a velocity vector (Vx, vy) = (2.6 X 105 m/s, 1.2 X 105 m/s). V ---D---- 1) What is v, the...