- #1
samsungman
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Hey all, I have some hard times with these critical thinking questions. Please help me out. Thanks.
1. The magnitude of the electric field at a point in space does not depend upon...
a. The distance from the charge causing the field.
b. The sign of the chrge causing the field.
c. The magnitude of the charge causing the field.
d. The force that a unit positive charge will experience at that point.
e. The force that a unit negative charge will experience at that point.
I guess you use these equations:
[tex]
F = k_e \frac {Q_1 Q_2} {r^2}
[/tex]
[tex]
E = \frac {F}{q_0}
[/tex]
2. The magnitude of the electric field at a distance of 10 meters from a negative point charge is E. What is the magnitude of the electric field at the same location if the magnitude of the charge is doubled?
I'd say 2E since it is directly proportional?
3. A charged particle is moving in a uniform, constant magnetic field. Which one of the following statements concerning the magnetic force exerted on the particle is false?
a. It does no work on the particle.
b. It increases the speed of the particle.
c. It changes the velocity of the particle.
d. It can act only on a particle in motion.
e. It does not change the kinetic energy of the particle.
Uhm... I chose e because it is in a constant magnetic field?
4. A proton traveling due north enters a region that contains both a magnetic field and an electric field. The electric field lines point due west. It is observed that the proton continues to travel in a straight line due north. In which direction must the magnetic field lines point?
a. Up
b. Down
c. East
d. West
e. South
I'm bad in right hand rule, but wouldn't it be up?
5. A proton is traveling south as it enters a region that contains a magnetic field. The proton is deflected downward toward the earth. What is the direction of the magnetic field?
a. Downward, toward the earth
b. West
c. North
d. East
E. South
Um... I use the right hand rule again right? :grumpy: Downward?
1. The magnitude of the electric field at a point in space does not depend upon...
a. The distance from the charge causing the field.
b. The sign of the chrge causing the field.
c. The magnitude of the charge causing the field.
d. The force that a unit positive charge will experience at that point.
e. The force that a unit negative charge will experience at that point.
I guess you use these equations:
[tex]
F = k_e \frac {Q_1 Q_2} {r^2}
[/tex]
[tex]
E = \frac {F}{q_0}
[/tex]
2. The magnitude of the electric field at a distance of 10 meters from a negative point charge is E. What is the magnitude of the electric field at the same location if the magnitude of the charge is doubled?
I'd say 2E since it is directly proportional?
3. A charged particle is moving in a uniform, constant magnetic field. Which one of the following statements concerning the magnetic force exerted on the particle is false?
a. It does no work on the particle.
b. It increases the speed of the particle.
c. It changes the velocity of the particle.
d. It can act only on a particle in motion.
e. It does not change the kinetic energy of the particle.
Uhm... I chose e because it is in a constant magnetic field?
4. A proton traveling due north enters a region that contains both a magnetic field and an electric field. The electric field lines point due west. It is observed that the proton continues to travel in a straight line due north. In which direction must the magnetic field lines point?
a. Up
b. Down
c. East
d. West
e. South
I'm bad in right hand rule, but wouldn't it be up?
5. A proton is traveling south as it enters a region that contains a magnetic field. The proton is deflected downward toward the earth. What is the direction of the magnetic field?
a. Downward, toward the earth
b. West
c. North
d. East
E. South
Um... I use the right hand rule again right? :grumpy: Downward?
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