two small steel balls (5.6 g each) are separated by a distance of 5cm. If one in every billion electrons could be removed from each ball, what would be the approximate magnitude of the electrostatic force exerted by each ball on the other? (hint: steel is essentially iron, and an iron nucleus contains 26 protons and 30 neutrons.)
two small steel balls (5.6 g each) are separated by a distance of 5cm. If one...
4. Two small styrofoam balls are each given the same negative charge, and they experience a repulsive electrostatic force of 12 nN (12x10 9 N) when separated by a distance of 5.0 cm. How many excess electrons are on the two balls combined? (e 1.6x10 19 G, k8.99x10 A. 3.6x10s electrons B. 7.2x105 electrons C. 1.6×109 electrons D. 3.4x10 electrons E. 9.3x107 electrons 4. Two small styrofoam balls are each given the same negative charge, and they experience a repulsive...
Two spherical objects are separated by a distance of 1.01 × 10-3 m. The objects are initially electrically neutral and are very small compared to the distance between them. Each object acquires the same negative charge due to the addition of electrons. As a result, each object experiences an electrostatic force that has a magnitude of 1.83 × 10-20 N. How many electrons did it take to produce the charge on one of the objects?
Do each question separately and show step by step Two spherical objects are separated by a distance of 2.80 mm. The objects are initially electrically neutral and are very small compared to the distance between them. Each object acquires the same negative charge due to the addition of electrons, As a result, each object experiences an electrostatic force that has a magnitude of 1.44 times 10^-25 N. How many electrons did it take to produce the charge on one of...
Two spherical objects are separated by a distance that is 9.00 10-3 m. The objects are initially electrically neutral and are very small compared to the distance between them. Each object acquires the same negative charge due to the addition of electrons. As a result, each object experiences an electrostatic force that has a magnitude of 1.1375 10-21 N. How many electrons did it take to produce the charge on one of the objects? electrons?
Two spherical objects are separated by a distance of 1.25 × 10-3 m. The objects are initially electrically neutral and are very small compared to the distance between them. Each object acquires the same negative charge due to the addition of electrons. As a result, each object experiences an electrostatic force that has a magnitude of 1.78 × 10-20 N. How many electrons did it take to produce the charge on one of the objects?
Two spherical objects are separated by a distance of 1.84 × 10-3 m. The objects are initially electrically neutral and are very small compared to the distance between them. Each object acquires the same negative charge due to the addition of electrons. As a result, each object experiences an electrostatic force that has a magnitude of 8.23 × 10-21 N. How many electrons did it take to produce the charge on one of the objects?
Two spherical objects are separated by a distance of 1.47 × 10-3 m. The objects are initially electrically neutral and are very small compared to the distance between them. Each object acquires the same negative charge due to the addition of electrons. As a result, each object experiences an electrostatic force that has a magnitude of 1.53 × 10-20 N. How many electrons did it take to produce the charge on one of the objects?
Two spherical objects are separated by a distance of 2.04 × 10-3 m. The objects are initially electrically neutral and are very small compared to the distance between them. Each object acquires the same negative charge due to the addition of electrons. As a result, each object experiences an electrostatic force that has a magnitude of 1.08 × 10-20 N. How many electrons did it take to produce the charge on one of the objects?
Two spherical objects are separated by a distance of 1.76 × 10-3 m. The objects are initially electrically neutral and are very small compared to the distance between them. Each object acquires the same negative charge due to the addition of electrons. As a result, each object experiences an electrostatic force that has a magnitude of 3.64 × 10-21 N. How many electrons did it take to produce the charge on one of the objects
Two small objects, A and B, are fixed in place and separated by 3.00 cm in a vacuum. Object A has a charge of ?2.00 ?C, and object B has a charge of ?2.00 ?C. How many electrons must be removed from object A and put onto object B to make the electrostatic force that acts on each object an attractive force whose magnitude is 68.0N?