For physics, For the right hand rule: -> What corresponds to the direction of the magnetic force on a charge? ---> What corresponds to the direction of the magnetic field? ---> what corresponds to the direction of the velocity of the charge?
For the right hand rule,
the direction of the magnetic force on a charge is the direction of the thumb,
the direction of the magnetic field is the direction of the forefinger,
the direction of the velocity of the ( positive ) charge is the direction of the middle finger.
For physics, For the right hand rule: -> What corresponds to the direction of the magnetic...
For physics, For the right hand rule: -> What corresponds to the direction of the magnetic force on a charge? ---> What corresponds to the direction of the magnetic field? ---> what corresponds to the direction of the velocity of the charge? ---> HERE are choices: Pinky finger, thumb, index finger, middle finger, palm of hand.
For the right hand rule, what corresponds to the direction of the Magnetic field? The direction of the velocity of the charge? and the direction of the magnetic force on a charge?
As discussed during lecture, for the right hand rule, what corresponds to the direction of the magnetic force on a charge A. Your pinky finger. B. Your thumb. C. Your index finger. D. Your middle finger. E. Your palm. As discussed during lecture, for the right hand rule, what corresponds to the direction of the magnetic field? A. Your pinky finger. OB. Your thumb. C. Your index finger. D. Your middle finger. E. Your palm. As discussed during lecture for...
Using the right hand rule, what is the direction of the magnetic force acting on a charged particle that is moving to the left through a magnetic field directed to the right? Out of page Up Down There is no force acting on the particle
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13) Use the right-hand rule to determine the direction of the magnetic field or force where appropriate. (a) If a negative charge has a velocity vin an external magnetic field B then in what direction is the force. (b) If a positive charge has a velocity v in an external magnetic field B then in what direction is the force. O O O O O ооооовое ооооо (c) If a positive charge has a...
Use the right-hand-rule, determine the direction of the magnetic force on a current carrying strip in the following diagram, where the magnetic field is parallel to the surface of this paper: The magnetic force on the current strip is directed: a. to the left b. to the right upward d. c. downward "into the paper" e. f. "out of the paper" Use the right-hand-rule, determine the direction of the magnetic force on a current carrying strip in the following diagram,...
Question 9 (2 points) Using the right hand rule, what is the direction of the magnetic force acting on a charged particle that is moving to the left through a magnetic field directed to the right? Out of page Up Down There is no force acting on the particle Question 10 (2 points) Two wires carrying current in the same direction are parallel to each other. Which of the following statements is correct? The answer will depend on the relative...
When using the Right Hand Rule, your open palm tells you the direction of… The electric field The current The magnetic field The force If a problem tells you that there is a “proton”. What will you know just from having that information? The charge The mass Location The number of neutrons
15. Use the right-hand rule to determine the direction of the force on the charges moving in the magnetic fields below The force is The force is sores Force is The proton will be deflected Label the poles of the horseshoe magnet to reflect what is happening. 6. A beam of electrons passes through a magnetic field without being deflected. What can you conclude about the orientation of the beam relative to the magnetic field? Sketch a diagram showing the...
3. Explain how the right hand rule will predict the direction of the magnetic field for an electric current running through a coil of wire: 4. Explain how the right hand rule works for an external magnetic field that is changing inside a coil of wire: 5. In the situation below, the bar magnet is moving to the right. What will be the direction of the induced current in the solenoid? (Either draw arrows, or describe like up in front, down in...