Consider a region of space with volume 97 mm3. Suppose the energy stored in the electric...

In a region of space, there is an electric field. At a particular point, the electric...

In a region of space, there is an electric field. At a particular point, the electric field is E = (5.0(i-hat) + 12(j-hat)) V/m. A point charge of −300 nC is placed at this point. What is the magnitude of the force on the point charge? What is the x-component and y-component of the force on the point charge? What is the direction of the force on the point charge?

70.0 pJ of energy is stored in a 2.50 cm × 2.50 cm × 2.50 cm...

70.0 pJ of energy is stored in a 2.50 cm × 2.50 cm × 2.50 cm region of uniform electric field. What is the electric field strength?

The electric potential in a region of space is V=( 260 x2− 160 y2)V, where x...

The electric potential in a region of space is V=( 260 x2− 160 y2)V, where x and y are in meters. What is the strength of the electric field at  (x,y)=(2.0m,2.0m) ? What is the direction of the electric field at  (x,y)=(2.0m,2.0m)? Give the direction as an angle (in degrees) counterclockwise from the positive x-axis.

1. What is the energy stored in the 8.1 μF capacitor of a heart defibrillator charged...

1. What is the energy stored in the 8.1 μF capacitor of a heart defibrillator charged to 9.9 kV? 2. How far apart are two conducting plates that have an electric field strength of 3.5×103 V/m between them, if their potential difference is12 kV? 3. The naturally occurring charge on the ground on a fine day out in the open country is 2.32 nC. What is the electric potential at a height of 3.98 m? 4. What is the strength...

1. A proton is released in a region in space where there is an electric potential....

1. A proton is released in a region in space where there is an electric potential. Describe the subsequent motion of the proton. 2. In a certain region of space, the electric field is zero. From this fact, what can you conclude about the electric potential in this region? (a) It is zero. (b) It does not vary with position. (c) It is positive. (d) It is negative. (e) None of those answers is necessarily true. please provide throughout explanation

An electron with kinetic energy 4.0 keV moves horizontally into a region of space in which...

An electron with kinetic energy 4.0 keV moves horizontally into a region of space in which there is a downward-directed electric field of magnitude 14 kV/m. (a) What are the magnitude and direction of the (smallest) magnetic field that will cause the electron to continue to move horizontally? Ignore the gravitational force, which is rather small. ______ (magnitude) Show all work

In some region of space the electric potential is V(x) = 2sin(2x) + 2x. What is...

In some region of space the electric potential is V(x) = 2sin(2x) + 2x. What is the electric field in this region? What would an electron do if placed at x = pi/3 m, move left, right, or stand still?

The electric potential in a region of space is V=( 260 x2− 160 y2)V, where x...

The electric potential in a region of space is V=( 260 x2− 160 y2)V, where x and y are in meters. What is the direction of the electric field at (x,y)=(2.0m,2.0m)? Give the direction as an angle (in degrees) counterclockwise from the positive x-axis. THe strenght of the electric field is 1200 V/m.

The electric potential in a region of space as a function of position x is given...

The electric potential in a region of space as a function of position x is given by the equation V(x) = αx2 + βx - γ, where α = 2V/m2, β = 7V/m, and γ = 15V. All nonelectrical forces are negligible. An electron starts at rest at x = 0 and travels to x = 20 m. Calculate the magnitude of the work done on the electron by the electric field during this process. Calculate the speed of the...

In a certain region of space, there is a uniform electric field E= 4.3 x 104...

In a certain region of space, there is a uniform electric field E= 4.3 x 104 V/m to the east and a uniform magnetic field B = .0073 T to the west. a) What is the electromagnetic force on an electron moving north at 3.7 x 107 m/s? b) With the electric and magnetic fields as specified, is there some velocity such that the net electromagnetic force on the electron would be zero?