An electric dipole consists of two particles, each with mass 8 Dalton, and charges +3e. The particles are initially in equilibrium and at rest, then a pulsed electric field with a width of 14 cm and a constant magnitude of 3.00x106 V/m passes the dipole. Does the electric field accelerate the two particles in the same direction, or in opposite directions? The same direction Opposite directions Submit Answer Tries 0/99 For what period of time do the charges experience a force from the electric field? Submit Answer Tries 0/99 What is the magnitude of the force the electric field exerts on each particle? Submit Answer Tries 0/99

An electric dipole consists of two particles, each with mass 8 Dalton, and charges +3e. The particles are initially in equilibrium and at rest, then a pulsed electric field with a width of 14 cm and a constant magnitude of 3.00x106 V/m passes the dipole. Does the electric field accelerate the two particles in the same direction, or in opposite directions? The same direction Opposite directions Submit Answer Tries 0/99 For what period of time do the charges experience a force from the electric field? Submit Answer Tries 0/99 What is the magnitude of the force the electric field exerts on each particle? Submit Answer Tries 0/99

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Question

An electric dipole consists of two particles, each with mass 8 Dalton, and charges +3e. The particles are initially in equilibrium and at rest, then a pulsed electric field with a width of 14 cm and a constant magnitude
of 3.00x106 v/m passes the dipole.
Does the electric field accelerate the two particles in the same direction, or in opposite directions?
The same direction
Opposite directions
Submit Answer
Tries 0/99
For what period of time do the charges experience a force from the electric field?
Submit Answer
Tries 0/99
What is the magnitude of the force the electric field exerts on each particle?
Submit Answer
Tries 0/99
How much momentum is transferred to each particle? (Assume that the momentum is transferred so quickly that only the electric field needs to be taken into account.)
Submit Answer
Tries 0/99
How much energy is transferred to the dipole as a whole? (Assume that the momentum is transferred so quickly that changes in potential energy are negligible.)
Submit Answer
Tries 0/99

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