two positive charges a and b are placed on the horizontal axis. charge is the same...

two charges are placed on the x axis, a positive charge of 2.0 microcoulomb at x=50cm...

two charges are placed on the x axis, a positive charge of 2.0 microcoulomb at x=50cm and a negative charge of 7.0 microcoulomb at x=80. find a point from the origin where E=0

Positive charge A of charge 0.1mC is placed at the origin of axis x, charge B,...

Positive charge A of charge 0.1mC is placed at the origin of axis x, charge B, also positive, but of magnitude 4 times greater than A is placed at x=20.0 cm. These charges if released will run away from each other, but they are kept in place by the third charge positioned somewhere on the axis x. Find the value of this third charge (in mC).

A positive charge and a negative charge are placed on the x-axis. Q1 = q is...

A positive charge and a negative charge are placed on the x-axis. Q1 = q is fixed at x=0 and Q2 = - 4q is fixed at x = 4 cm. Where on the x-axis the electric field due to these two charges is zero?

Two point charges are placed on the x-axis as follows: charge q1 = 4.05 nC is...

Two point charges are placed on the x-axis as follows: charge q1 = 4.05 nC is located at x= 0.195 m , and charge q2 = 5.04 nC is at x= -0.300 m . Part A What is the magnitude of the total force exerted by these two charges on a negative point charge q3 = -6.00 nC that is placed at the origin? F= ? N Part B What is the direction of the total force exerted by these...

Two positive point charges are held fixed on the x-axis. Point charge A is located at...

Two positive point charges are held fixed on the x-axis. Point charge A is located at the origin, and point charge B is located at the position x = −5.00 cm = −5.00✕10-2 m (on the negative x-axis). The magnitude of charge A is two times greater than that of charge B: qA = 2qB. ke = 8.9876✕109 Nm2/C2 (A.) The electric force on charge A has magnitude 0.344 mN = 0.344⨯10-3 N. What is the electric force (magnitude and...

the two-point charges of magnitude +3.00μC and -5.00μC are placed along the x axis at x...

the two-point charges of magnitude +3.00μC and -5.00μC are placed along the x axis at x = 0cm and x = 40cm respectively. Where must the third charge, q, be placed along the x axis so that it does not experience any net force because of the other two charges?

Three charges line along the x-axis. The positive charge q1 = 15x10-6 C is at x=2.0m...

Three charges line along the x-axis. The positive charge q1 = 15x10-6 C is at x=2.0m and the positive change qs= 6.0uC is at the origin. Where must the negative charge q3 be placed on the x-axis so that the resultant electric force on it is zero? Round to 2 significant figures.

Two point charges of magnitude -9.00 µC and -4.00 µC are placed along the x-axis at...

Two point charges of magnitude -9.00 µC and -4.00 µC are placed along the x-axis at x=0 cm and x=40.0 cm respectively. Where must a third charge q be placed along the x-axis so that it does not experience any net force between the other two charges? Please show work!

Consider charges placed along an x-axis. If a charge of +17 nC is placed at x...

Consider charges placed along an x-axis. If a charge of +17 nC is placed at x = 0.00 m and a charge of +30 nC is placed at x = 1.00 m, where would a third charge of -14.0 nC be in electrostatic equilibrium?

Two charges are placed on the y axis. One charge of +3.5 micro-coulombs is placed at...

Two charges are placed on the y axis. One charge of +3.5 micro-coulombs is placed at y +3.9 m, and another charge of +10.7 micro-coulombs is placed at y = -4.8 m. If a third charge of -6 micro-coulombs is placed between them, where on the y axis (i.e. y = ______) is the total for electric force on this charge equal to zero? Answer in meters.