QUESTION What would happen to the instantaneous trajectory of the orbiting proto

ID: 1492041 • Letter: Q

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QUESTION What would happen to the instantaneous trajectory of the orbiting proton if the solenoid were suddenly re-oriented so its axis becomes vertical? (Select all that apply.)
The proton would stop moving.The proton, as one possibility, could keep moving in a circle in the horizontal plane.The proton, as one possibility, could move upward out of the solenoid.The proton would move in a plane oriented at about 45° away from horizontal.It depends on the proton's instantaneous position and direction of motion in its orbit when the change occurs.
PRACTICE IT Use the worked example above to help you solve this problem. A certain solenoid consists of 103 turns of wire and has a length of 12.6 cm. (a) Find the magnitude of the magnetic field inside the solenoid when it carries a current of 0.510 A.
T

(b) What is the momentum of a proton orbiting inside the solenoid in a circle with a radius of 0.024 m? The axis of the solenoid is perpendicular to the plane of the orbit.
kg · m/s

(c) Approximately how much wire would be needed to build this solenoid? Assume the solenoid's radius is 6.19 cm.
m EXERCISE HINTS:  GETTING STARTED  |  I'M STUCK! Suppose you have a 30.7 m length of copper wire. If the wire is wrapped into a solenoid 0.240 m long and having a radius of 0.0456 m, how strong is the resulting magnetic field in its center when the current is 14.9 A?
B = T QUESTION What would happen to the instantaneous trajectory of the orbiting proton if the solenoid were suddenly re-oriented so its axis becomes vertical? (Select all that apply.)
The proton would stop moving.The proton, as one possibility, could keep moving in a circle in the horizontal plane.The proton, as one possibility, could move upward out of the solenoid.The proton would move in a plane oriented at about 45° away from horizontal.It depends on the proton's instantaneous position and direction of motion in its orbit when the change occurs.
PRACTICE IT Use the worked example above to help you solve this problem. A certain solenoid consists of 103 turns of wire and has a length of 12.6 cm. (a) Find the magnitude of the magnetic field inside the solenoid when it carries a current of 0.510 A.
T

(b) What is the momentum of a proton orbiting inside the solenoid in a circle with a radius of 0.024 m? The axis of the solenoid is perpendicular to the plane of the orbit.
kg · m/s

(c) Approximately how much wire would be needed to build this solenoid? Assume the solenoid's radius is 6.19 cm.
m EXERCISE HINTS:  GETTING STARTED  |  I'M STUCK! Suppose you have a 30.7 m length of copper wire. If the wire is wrapped into a solenoid 0.240 m long and having a radius of 0.0456 m, how strong is the resulting magnetic field in its center when the current is 14.9 A?
B = T QUESTION What would happen to the instantaneous trajectory of the orbiting proton if the solenoid were suddenly re-oriented so its axis becomes vertical? (Select all that apply.)
The proton would stop moving.The proton, as one possibility, could keep moving in a circle in the horizontal plane.The proton, as one possibility, could move upward out of the solenoid.The proton would move in a plane oriented at about 45° away from horizontal.It depends on the proton's instantaneous position and direction of motion in its orbit when the change occurs.
QUESTION What would happen to the instantaneous trajectory of the orbiting proton if the solenoid were suddenly re-oriented so its axis becomes vertical? (Select all that apply.)
The proton would stop moving.The proton, as one possibility, could keep moving in a circle in the horizontal plane.The proton, as one possibility, could move upward out of the solenoid.The proton would move in a plane oriented at about 45° away from horizontal.It depends on the proton's instantaneous position and direction of motion in its orbit when the change occurs.
The proton would stop moving.The proton, as one possibility, could keep moving in a circle in the horizontal plane.The proton, as one possibility, could move upward out of the solenoid.The proton would move in a plane oriented at about 45° away from horizontal.It depends on the proton's instantaneous position and direction of motion in its orbit when the change occurs. PRACTICE IT Use the worked example above to help you solve this problem. A certain solenoid consists of 103 turns of wire and has a length of 12.6 cm. (a) Find the magnitude of the magnetic field inside the solenoid when it carries a current of 0.510 A.
T

(b) What is the momentum of a proton orbiting inside the solenoid in a circle with a radius of 0.024 m? The axis of the solenoid is perpendicular to the plane of the orbit.
kg · m/s

(c) Approximately how much wire would be needed to build this solenoid? Assume the solenoid's radius is 6.19 cm.
m PRACTICE IT Use the worked example above to help you solve this problem. A certain solenoid consists of 103 turns of wire and has a length of 12.6 cm. (a) Find the magnitude of the magnetic field inside the solenoid when it carries a current of 0.510 A.
T

(b) What is the momentum of a proton orbiting inside the solenoid in a circle with a radius of 0.024 m? The axis of the solenoid is perpendicular to the plane of the orbit.
kg · m/s

(c) Approximately how much wire would be needed to build this solenoid? Assume the solenoid's radius is 6.19 cm.
m (a) Find the magnitude of the magnetic field inside the solenoid when it carries a current of 0.510 A.
T

(b) What is the momentum of a proton orbiting inside the solenoid in a circle with a radius of 0.024 m? The axis of the solenoid is perpendicular to the plane of the orbit.
kg · m/s

(c) Approximately how much wire would be needed to build this solenoid? Assume the solenoid's radius is 6.19 cm.
m EXERCISE HINTS:  GETTING STARTED  |  I'M STUCK! Suppose you have a 30.7 m length of copper wire. If the wire is wrapped into a solenoid 0.240 m long and having a radius of 0.0456 m, how strong is the resulting magnetic field in its center when the current is 14.9 A?
B = T EXERCISE HINTS:  GETTING STARTED  |  I'M STUCK! Suppose you have a 30.7 m length of copper wire. If the wire is wrapped into a solenoid 0.240 m long and having a radius of 0.0456 m, how strong is the resulting magnetic field in its center when the current is 14.9 A?
B = T

Explanation / Answer

The proton, as one possibility, could keep moving in a circle in the horizontal plane. The orbtial plane of the orbit always perpendicular to the magnetic field. If the solenoid axis placed vertical, the orbital plane of the proton become horizontal.

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QUESTION What would happen to the instantaneous trajectory of the orbiting proto

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QUESTION What would happen to the instantaneous trajectory of the orbiting proto

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