Bead A has a mass of 14 g and a charge of -4.6 nC . Bead B has a mass of 22 g and a charge of -14.0 nC . The beads are held 15 cm apart (measured between their centers) and released. What maximum speed is achieved by each bead?
Express your answers using two significant figures separated by a comma.
vfA, vfB =
Two 2.4-mm-diameter beads, C and D, are 9.0 mm apart, measured between their centers. Bead C has mass 1.0 g and charge 2.1 nC . Bead D has mass 1.6 g and charge -1.0 nC. If the beads are released from rest, what is the speed vC of C at the instant the beads collide? Express your answer to two significant figures and include the appropriate units.
Two 2.1-mm-diameter beads, C and D, are10 mm apart, measured between their centers. Bead C has mass 1.0 g and charge 2.0 nC . Bead D has mass 1.5 g and charge -1.0 nC. A) If the beads are released from rest, what is the speed vC of C at the instant the beads collide? B) What is the speed vD of D at the instant the beads collide?
A small metal bead, labeled A, has a charge of 27 nC . It is touched to metal bead B, initially neutral, so that the two beads share the 27 nC charge, but not necessarily equally. When the two beads are then placed 5.0 cm apart, the force between them is 4.7×10−4 N . Assume that A has a greater charge. What is the charge qA and qB on the beads? Express your answers in nC.
A small metal bead, labeled A, has a charge of 28 nC . It is touched to metal bead B, initially neutral, so that the two beads share the 28 nC charge, but not necessarily equally. When the two beads are then placed 5.0 cm apart, the force between them is 4.9×10−4 N . Assume that A has a greater charge. What is the charge qA and qB on the beads? Express your answer in nanocoulombs.
A small metal bead, labeled A, has a charge of 27 nC . It is touched to metal bead B, initially neutral, so that the two beads share the 27 nC charge, but not necessarily equally. When the two beads are then placed 5.0 cm apart, the force between them is 5.1×10−4 N . Assume that A has a greater charge. What is the charge qA and qB on the beads? Express your answer in nanocoulombs.
A small metal bead, labeled A, has a charge of 27 nC . It is touched to metal bead B, initially neutral, so that the two beads share the 27 nC charge, but not necessarily equally. When the two beads are then placed 5.0 cm apart, the force between them is 4.5×10−4 N . Assume that A has a greater charge. What is the charge qA and qB on the beads? Express your answer in nanocoulombs.
A small metal bead, labeled A, has a charge of 29 nC . It is touched to metal bead B, initially neutral, so that the two beads share the 29 nC charge, but not necessarily equally. When the two beads are then placed 5.0 cm apart, the force between them is 4.7×10−4 N . Assume that A has a greater charge.What is the charge qA and qB on the beads?
A small metal bead, labeled A, has a charge of 29 nC . It is touched to metal bead B, initially neutral, so that the two beads share the 29 nC charge, but not necessarily equally. When the two beads are then placed 5.0 cm apart, the force between them is 5.4×10−4 N . Assume that A has a greater charge. What is the charge qA and qB on the beads?
A small metal bead, labeled A, has a charge of 25 nC. It is touched to metal bead B, initially neutral, so that the two beads share the 25 nC charge, but not necessarily equally. When the two beads are then placed 5.0 cm apart, the force between them is 5.2×10−4 N. Assume that A has a greater charge. What is the charge qA and qB on the beads?
A small metal bead, labeled A, has a charge of 27 nC . It is touched to metal bead B, initially neutral, so that the two beads share the 27 nC charge, but not necessarily equally. When the two beads are then placed 5.0 cm apart, the force between them is 5.0×10−4 N . Assume that A has a greater charge. Part A What is the charge qA and qB on the beads?