A cubical region 1.0 m on a side is located between x=0 and x=1m. The region contains an electric field whose magnitude varies with x but is independent of y and z: E=E0(x/x0), where E0 = 34 kV/m and x0 = 5.0 m .
Find the total energy in the region.
U, in units of micro Joules.
A cubical region 1.0 m on a side is located between x=0 and x=1m. The region...
A cubical region 1.0 m on a side is located between x = 0 and x = 1 m. The region contains an electric field whose magnitude varies with x but is independent of y and z: E = E_0(x/x_0), where E_0 = 16 kV/m and x_0 = 7.0 m. Find the total energy in the region. Express your answer using two significant figures. U =
An imaginary cubical surface of side L has its edges parallel to the x-, y- and z-axes, one corner at the point x = 0,y = 0, z = 0 and the opposite corner at the point x=L, y=L, z=L. The cube is in a region of uniform electric field E⃗ =E1i^+E2j^, where E1 and E2 are positive constants. Calculate the electric flux through the entire cubical surface. Face the normal points out of the cube. Express your answer in...
The region of space between x=0 and x=3.0cm contains an increasing electric field E(x)=E0x/a in the positive x direction.If E0=5,0x10^3V/m and a=1.0cm.Find the potential diffrence between x=1.5cm and x=2.8cm.
(12) Two point charges are located on the x-axis: a -1.0 µC charge located at x = -1.0 m, and a +2.0 µC charge located at x = +1.0 m. Find the magnitude of the electric field on the yaxis at a point y = +1.0 m above the origin. please show work.
The potential in a region between x = 0 and x = 6.00 m is V = a + bx, where a = 16.6 V and b = -3.50 V/m. (a) Determine the potential at x = 0. V Determine the potential at x = 3.00 m. V Determine the potential at x = 6.00 m. V (b) Determine the magnitude and direction of the electric field at x = 0. magnitude V/m direction ---Select---+x-x Determine the magnitude and direction...
The potential in a region between x = 0 and x = 6.00 m is V = a + bx, where a = 13.8 V and b = -4.30 V/m. (a) Determine the potential at x = 0. ___V Determine the potential at x = 3.00 m. ____V Determine the potential at x = 6.00 m. _____V (b) Determine the magnitude and direction of the electric field at x = 0. magnitude ___V/m direction ___ Determine the magnitude and direction...
The potential in a region between x = 0 and x = 6.00 m is V = a + bx, where a = 19.6 V and b =-4.10 V/m (a) Determine the potential at x 0 Determine the potential at x 3.00 m Determine the potential at x 6.00 m. (b) Determine the magnitude and direction of the electric field at x magnitude direction Select. 0 V/m Determine the magnitude and direction of the electric field at x 3.00 m....
The potential in a region between x-0 and x = 6.00 m is V-a + bx, where a 12.8 V and b =-5.70 V/m. (a) Determine the potential at x = 0. Determine the potential atx- 3.00 m (b) Determine the magnitude and direction of the electric field at x 0. magnitude direction -Select- V/m Determine the magnitude and direction of the electric field at x 3.00 m magnitude V/m direction
Practice Another Version -9 points SerPSE 10 24.4.OP 020 The potential in a region between x-0 and x -6.00 m is v-a + bx, where a 17.4 V and b- 4.30 V/m. (a) Determine the potential at x 0 Determine the potential at x 3.00 m. Determine the potential at x 6.00 m (b) Determine the magnitude and direction of the electric field at x-0 magnitude V/m Determine the magnitude and direction of the electric field at x-3.00 m. V/m...
A particle with initial velocity T = (6 x 10 m/s) i enters a region of uniform electric and magnetic fields. The magnetic field in the region is B = -(1.5T). In which of the following options is the magnitude and direction of the electric field in the region given correctly if a particle of charge q = 5 nC is to pass through undeflected with a constant velocity? (You can ignore the weight of the particle.) 9(kV/m) 4 (kV/m)...