Two particles, one with charge −2.09×10−6 C and the other with charge 1.87×10−6 C, are 0.0434...

Two particles, one with charge −2.93×10−6 C and the other with charge 4.39×10−6 C , are...

Two particles, one with charge −2.93×10−6 C and the other with charge 4.39×10−6 C , are 0.0209 m apart. What is the magnitude of the force that one particle exerts on the other? magnitude of force: Two new particles with identical positive charge q3 are placed the same 0.0209 m apart. The force between them is measured to be the same as that between the original particles. What is q3 ?

Two particles each have a mass of 5.6 x 10-4 kg. One has a charge of...

Two particles each have a mass of 5.6 x 10-4 kg. One has a charge of +5.4 x 10-6 C, and the other has a charge of -5.4 x 10-6 C. They are initially held at rest at a distance of 0.72 m apart. Both are then released and accelerate toward each other. How fast is each particle moving when the separation between them is one-third its initial value?

particles 1 and 2 of charge q1 = q2 = 3.20 * 10^-19 C are on...

particles 1 and 2 of charge q1 = q2 = 3.20 * 10^-19 C are on a y axis at distance d = 0.17 m from the origin. Particle 2 is located below x axis at -.17m and particle 1 is above. Particle 3 of charge q3 = 6.40 * 10^-19 C is moved gradually along the x axis from x = 0 to x = 5.0 m. At what values of x will the magnitude of the electrostatic force...

A.)Two particles, both carrying charge 3 C are traveling parallel to each other with velocities of...

A.)Two particles, both carrying charge 3 C are traveling parallel to each other with velocities of v⃗ =17000i^v→=17000i^ in m/s. They are positioned at the points (0,3,0)(0,3,0) and (0,−3,0)(0,−3,0). What is the magnitude and direction of the magnetic field at (0,3,0)(0,3,0) due to the particle located at (0,−3,0)(0,−3,0)? [Enter the magnitude in answer box 1 and the direction as one of either "in", "out", "up", "down", "left", or "right" in answer box 2. Assume that the xx-axis corresponds to left/right,...

A.)Two particles, both carrying charge 3 C are traveling parallel to each other with velocities of...

A.)Two particles, both carrying charge 3 C are traveling parallel to each other with velocities of v⃗ =17000i^v→=17000i^ in m/s. They are positioned at the points (0,3,0)(0,3,0) and (0,−3,0)(0,−3,0). What is the magnitude and direction of the magnetic field at (0,3,0)(0,3,0) due to the particle located at (0,−3,0)(0,−3,0)? [Enter the magnitude in answer box 1 and the direction as one of either "in", "out", "up", "down", "left", or "right" in answer box 2. Assume that the xx-axis corresponds to left/right,...

Two identical particles of charge 6 μμC and mass 3 μμg are initially at rest and...

Two identical particles of charge 6 μμC and mass 3 μμg are initially at rest and held 3 cm apart. How fast will the particles move when they are allowed to repel and separate to very large (essentially infinite) distance? Now suppose that the two particles have the same charges from the previous problem, but their masses are different. One particle has mass 3 μμg as before, but the other one is heavier, with a mass of 30 μμg. Their...

Two point-like particles with equal but opposite charge are placed 18.3 cm apart and released. The...

Two point-like particles with equal but opposite charge are placed 18.3 cm apart and released. The first particle has a mass of 19.2 g and initially accelerates toward the second particle at 6.78 m/s2. The second particle initially accelerates toward the first at 2.11 m/s2. Find the magnitude of the charge on each particle, and the mass of the second particle. [ans. 6.96×10-7 C, 61.7 g]

Two charge particles, +2q and -3q are on an axis at x = -10 and x...

Two charge particles, +2q and -3q are on an axis at x = -10 and x = 30 respectively. At one point, a third charged particle can be placed such that the net force acting on it would be zero. a) Calculate the location where the third charge should be placed to create this situation? b) Should the third charge be positive or negatively charged? Explain your reasoning.

Two particles which have the same magnitude charge but opposite sign are held r = 7...

Two particles which have the same magnitude charge but opposite sign are held r = 7 nm apart. Particle I is then released while Particle II is held steady; the released particle has a mass of 8.72 × 10-23 kg. Particle I's speed is 110 km/s when it is 0.74r away from Particle II. 1. What is the magnitude of the charge on one of the particles? 2. If the particles are still initially held 7 nm apart but both...

Two particles are fixed to an x axis: particle 1 of charge -3.89 × 10-7 C...

Two particles are fixed to an x axis: particle 1 of charge -3.89 × 10-7 C is at the origin and particle 2 of charge +3.89 × 10-7 C is at x2 = 20.7 cm. Midway between the particles, what is the magnitude of the net electric field?