a particle with charge of 10 coulomb is kept at rest in a strong magnetic field of 100000 tesla magnitude. the force experienced by charged particle is
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A charged particle of 10C is kept at rest in magnetic field of 100,000 Tesla magnitude. Means velocity of charge particle , v = 0.
But we know, force experienced by charged particle in magnetic field is given by
Here v is velocity of particle and B is megnetic field .
if velocity of particle = 0 , then force experienced by charged particle in magnetic field = 0 .
Hence, force experienced by charged particle = 0 N
But we know, force experienced by charged particle in magnetic field is given by
Here v is velocity of particle and B is megnetic field .
if velocity of particle = 0 , then force experienced by charged particle in magnetic field = 0 .
Hence, force experienced by charged particle = 0 N
Answered by
6
Hello Dear.
Here is the answer---
→→→→→→→→→
Answer---- Zero Newton.
Explanation---
Given---
Charge = 10 Coulomb.
Magnitude of Magnetic Field = 100000 Tesla.
Velocity of the Charge = 0 [Since the charge is kept at rest.]
Using the Formula,
Force = Q [V × B]
Force = 10[ 0 × 100000]
Force = 0 N
Thus, the Force experienced by the charged particles is 10 newton.
→→→→→→→→→→→→→
Hope it helps.
Have a nice day.
Here is the answer---
→→→→→→→→→
Answer---- Zero Newton.
Explanation---
Given---
Charge = 10 Coulomb.
Magnitude of Magnetic Field = 100000 Tesla.
Velocity of the Charge = 0 [Since the charge is kept at rest.]
Using the Formula,
Force = Q [V × B]
Force = 10[ 0 × 100000]
Force = 0 N
Thus, the Force experienced by the charged particles is 10 newton.
→→→→→→→→→→→→→
Hope it helps.
Have a nice day.
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