Two charges each +4 uC are on the x-axis, one at the origin and the other...

4. A point charge 7.00 uC is placed at the origin and -5.00 uC charge (x=0.3m)...

4. A point charge 7.00 uC is placed at the origin and -5.00 uC charge (x=0.3m) along x-axis. You are asked to determine the following. (a) Electric field due to 7.00 uC on y-axis at the point (2,-4,0) (b) Electric field due to -5.00 uC at the same point. (c) Net electric field and it’s direction due to total charges at the same point. 4. A point charge 7.00 uC is placed at the origin and -5.00 uC charge due...

Two point charges lie on the x axis. A charge of +6.37 uC is at the...

Two point charges lie on the x axis. A charge of +6.37 uC is at the origin, and a charge of -9.54 uC is at x = 12.0 cm. What is the net electric field at x = -3.89 cm? What is the net electric field at x = +3.89 cm?

Two equal charges of 3.00 x 10^-6 C lie along the x-axis: one is at the...

Two equal charges of 3.00 x 10^-6 C lie along the x-axis: one is at the origin, and the other is 2.0 m from the origin. Find the magnitude and direction of the electric field at a point on the y-axis 0.25 m from the origin.

Two charges are set on the x-axis 9.50 cm away from each other. The charges are...

Two charges are set on the x-axis 9.50 cm away from each other. The charges are -3.20 nC and 23.2 nC. Calculate the electric potential at the point on the x-axis where the electric field due to these two charges is zero.

1, Two charges are placed on the x axis. One of the charges (q1 = +8.09C)...

1, Two charges are placed on the x axis. One of the charges (q1 = +8.09C) is at x1 = +3.00 cm and the other (q2 = -21.5C) is at x2 = +9.00 cm. Find the net electric field (magnitude and direction given as a plus or minus sign) at (a) x = 0 cm and (b) x = +6.00 cm. 2. Two charges, -22 C and +3.5 C, are fixed in place and separated by 3.0 m. (a) At...

Initially two positive charges lie on the x-axis: qA is at the origin and qB is...

Initially two positive charges lie on the x-axis: qA is at the origin and qB is at (23.8 cm,0). The electric field created by these charges is zero at (6.13 cm,0). Now the charge on qA is reversed (from positive to negative). Find the x-coordinate of the point on the x-axis where the electric field is zero now, in cm. Your answer must include the sign of the x-coordinate. HINT: Which charge is larger?

Two point charges lie on the x-axis. A charge of -5.5 microcoulombs is at the origin,...

Two point charges lie on the x-axis. A charge of -5.5 microcoulombs is at the origin, and a charge of +4.5 microcoulombs is at x = 10.0 cm. a. what is the net electric field at x = -4.0 cm? b. what is the net electric field at x = +4.0 cm?

Two point charges q_1 = 2 uC and q_2 = -2 uC are in a distance...

Two point charges q_1 = 2 uC and q_2 = -2 uC are in a distance of 1 cm between each other. Find the intensity of the electrostatic field at point M perpendicular to point charge q_1 and at a distance of r = 5 cm. (calculating the resultant electric field intensity)

Two charges are placed on the x axis. One of the charges (q1 = +9.4 µC)...

Two charges are placed on the x axis. One of the charges (q1 = +9.4 µC) is at x1 = +2.7 cm and the other (q2 = -24 µC) is at x2 = +8.9 cm. (a) Find the net electric field (magnitude and direction) at x = 0 cm. (Use the sign of your answer to indicate the direction along the x-axis.) (b) Find the net electric field (magnitude and direction) at x = +6.2 cm. (Use the sign of...

Three charges lie along the x-axis. One positive charge, q1 = 25 uC is at x...

Three charges lie along the x-axis. One positive charge, q1 = 25 uC is at x = 0.25 m. Another charge, q2 = -5.0 uC, is located at the origin. A third charge, q3 = -35 uC, is placed so that q2 is in electrostatic equilibrium with q1 and q3. How large must the electrostatic force between q2 and q3 be to balance the force between q1 and q2?