4. Charges on x-axis produce an electric potential V(x) = 450x2 along the x-axis, where x...
I Review Part A An arrangement of source charges produces the electric potential V = 5000-along the z-axis, where V is in volts and r is in meters. What is the maximum speed of a 1.0 g, 15 nC charged particle that moves in this potential with turning points at 8.4cm? Express your answer to two significant figures and include the appropriate units. cm nax- 0.102 You have already submitted this answer. Enter a new answer. No credit lost. Try...
A positive charge q moves along the positive x-axis in a region of space where a magnetic field points along the negative z-axis and an electric field points 19° below the negative x-axis (in the xy-plane) a. Draw a free body diagram indicating all forces acting on the particle. (Neglect gravity) b. What is the magnitude of the Lorentz force on the particle? c. What is the direction of the Lorentz force? Give your answer in degrees and indicate which...
A positive charge q moves along the positive x-axis in a region of space where a magnetic field points along the negative :- axis and an electric field points 19° below the negative x-axis (in the xy-plane) a. Draw a free body diagram indicating all forces acting on the particle. (Neglect gravity) b. What is the magnitude of the Lorentz force on the particle? c. What is the direction of the Lorentz force? Give your answer in degrees and indicate...
1) Three charges are placed along the x-axis. At -4 cm, a charge of +0.7 uc, at the origin, +1 uc, and at +6 cm, a charge of 2 uС. Find the net force (magnitude and direction) on the central charge. 2) In the above system, what is the electric field at the point on the x-axis x=-2 cm? What would be the acceleration experienced by an 80 nC charge with mass 107 kg?
Two charged particles are along the x axis: q1 is at -5.0 cm, and q2 is at 3.0 cm. The values of the charges are: q1= +4 microC q2= -2 microC Find the electric field (magnitude and direction) and the potential at the origin (at x = 0)..
Three point charges are located on the positive x-axis of a coordinate system. Charge q1 = 1.5 nC is 2.0 cm from the origin, charge q2 = -3.0 nC is 4.0 cm from the origin and charge q3 = 5.5 nC located at the origin. What is the net force ((a)magnitude and (b) direction) on charge q1 = 1.5 nC exerted by the other two charges?
The drawing shows the electric potential as a function of distance along the x axis. Determine the magnitude of the electric field in the following regions. 5.0 4.0 3.0 2.0 0.20 0.40 (a) A to B V/m (b) B to C V/m (c) C to D V/m 0.60 0.80
The electric potential along the x-axis is V=100e−2xV, where x is in meters. What is Ex at x=1.5m?
Three point charges are located on the positive x-axis of a coordinate system. charge q1 1.5 nC is 2.0 cm from the origin, charge q2 -2.0 nC is 4.0 cm from the origin and charge q3 -5.0 nC located at the origin. What is the net force ((a)magnitude and (b) direction) on charge q1.5 nC exerted by the other two charges?
a) For the arrangement of charges in the figure, calculate the electric potential (in V) at point P. Use q = 3.0 nC and d = 2.7 m, and assume that V = 0 V at infinite distance. b)If a charge −2q is brought to point P, what is the electric energy of this charge (in V)? Assume again that the electric potential energy is zero at infinite distance. 2 .y P.