Moving 0.45 meters in the +y direction in a uniform electric field produces a change of electric potential of +8.3 volts. If the field is in the +y or -y direction, what is the amount of the field in N/C and what direction is it? If in the -y direction, indicate so with a negative sign.
Moving 0.45 meters in the +y direction in a uniform electric field produces a change of...
A uniform electric field of 23 N/C is directed in -y direction. If one moves 0.45 meters in the +y direction, what is the change in electric potential in volts? If answer is negative, include a negative sign.
A uniform electric field of 9.1 N/C is directed in the -x direction. What is the change in electric potential (not electric potential energy) if moving a distance of 0.25 meters in the -y direction in Volts? If negative, include a negative sign.
A uniform electric field of 4 x 106 N/C is directed in -y direction. If a charge of -4 micro-coulombs moves 0.7 meters in the +x direction (note the direction is not in the +y or -y direction like previous questions), what is the change in electric potential energy in Joules? If answer is negative, include a negative sign.
A uniform electric field of 7 x 106 N/C is directed in -y direction. If a charge of +7 micro-coulombs moves 0.3 meters in the -y direction. If one only includes the electric force, what is the change in kinetic energy in Joules? If answer is negative, include a negative sign.
A uniform electric field is oriented in the +y direction. The magnitude of the electric field is 6500 N/C. (b) Consider two of the equipotential surfaces; one with a potential of 13 V and the other with a potential of −19 V. What is the separation between these two surfaces?
A uniform electric field with a magnitude of 5500 N/C points in the positive x direction. Find the change in electric potential energy when a +11.5-μC charge is moved 6.50 cm in the positive x direction Find the change in electric potential energy when a +11.5-μC charge is moved 6.50 cm in the negative x direction. Find the change in electric potential energy when a +11.5-μC charge is moved 6.50 cm in the positive y direction.
A proton is acted on by an uniform electric field of magnitude 233 N/C pointing in the negative y direction. The particle is initially at rest. (a) In what direction will the charge move? (b) Determine the work done by the electric field when the particle has moved through a distance of 3.35 cm from its initial position. (c) Determine the change in electric potential energy of the charged particle. (d) Determine the speed of the charged particle.
A uniform magnetic field is directed in the -z direction. A rectangular wire wound 8 times with a length of 0.7 meters and width of 0.7 meters is placed in the x-y plane in the field. The magnetic field is changed in magnitude from 15 Tesla to 4 Tesla in a time of 0.6 seconds.If the resistance of the wire is 8 Ohms, what is the magnitude and direction of its magnetic moment produced by the average induced current in...
A uniform magnetic field is directed in the -z direction. A rectangular wire wound 7 times with a length of 0.8 meters and width of 0.9 meters is placed in the x-y plane in the field. The magnetic field is changed in magnitude from 13 Tesla to 6 Tesla in a time of 0.5 seconds. If the resistance of the wire is 6 Ohms, what is the magnitude and direction of its magnetic moment produced by the average induced current...
A uniform electric field of magnitude 1,000 N/C points in the negative y-direction. Calculate the electric potential difference V_B-V_A between the points A =(1cm, 2cm) and B = (3cm, 1cm). VB-VA = 10V VB-VA = 20V VB-VA = 30V VB-VA = -10V VB-VA = -20V VB-VA = -30V