When a charged particle is moving with velocity v?
When a charged particle is moving with velocity v?
The force →F experienced by a particle of charge q moving with a velocity →v in a magnetic field →B is given by →F=q(→v×→B).
When a charged particle moving with velocity V is subjected to magnetic field would the particle gain any energy?
Its direction is perpendicular to direction of motion of particle as well as perpendicular to the direction of magnetic field. Due to it, no work is done by the magnetic force on the charged particle. Therefore, the particle does not gain any kinetic energy.
What is a charged particle moving with a constant velocity produces?
Therefore, the charge moving with a uniform velocity produces the magnetic field.
When a charged particle moving with velocity V enters a uniform electric and magnetic field?
A charged particle moving with a uniform velocity →v enters a region where uniform electric and magnetic fields →E and →B are present. It passes through the region without any change in its velocity.
What does the velocity of a moving particle depend on?
The velocity v of a particle depends upon the time t according to the equation v=a+bt+cd+t.
What is the velocity of a particle Travelling along a straight line is V?
The velocity of a particle moving along a straight line increases according to the linear law v=v0+kx , where k is a constant. Then. the acceleration of the particle is k(v0+kx). the particle takes a time 1kloge(v1v0) to attain a velocity v1.
When a charged particle enters into a uniform magnetic field with a certain velocity?
A charged particle enters into a uniform magnetic field with velocity v0 perpendicular to it , the length of magnetic field is x=√32R, where R is the radius of the circular path of the particle in the field .
When a charged particle is moving along a magnetic field line?
The magnetic force on the particle is. zero.
When a charged particle moves along a magnetic field?
If a moving charged particle is subjected to a perpendicular uniform magnetic field, then according to F= qvB sin (θ), it will experience a maximum force which acts as a centripetal force to particle and it will follow a circular path with uniform speed.
When a charged particle can move with constant velocity through a region containing both?
A positive charge moves with constant velocity to the right through both a magnetic and electrostatic field.
Can a charge moving with constant velocity produce electric field?
The electric charge at constant velocity always produces a quasistatic electric field.
When velocity is constant is the object moving?
Motion with Constant Velocity: When an object is moving with constant velocity, it does not change direction nor speed and therefore is represented as a straight line when graphed as distance over time.
When a charged particle is moving in a uniform magnetic field such that its velocity is perpendicular to field then?
The magnetic force will act perpendicular to velocity at every instant ,path will be circle. Due to change in direction momentum will change but the total energy will remain same.
When a positively charged particle enters a uniform magnetic field with uniform velocity?
Hence, when a positively charged particle enters into a uniform magnetic field with uniform velocity, its trajectory can be straight line or a circle or a helix.
What is the condition for velocity of a charged particle moving in across electric field and magnetic field without deflection?
When the strength of electric and magnetic fields are varied to get the forces due to electric and magnetic fields to be equal (FE = FB), then the charge can move in the field without any deflection.
When a charged particle moving with velocity v goes unaccelerated?
Text solution `As the charged particle is not accelerated, the field E cannot be parallel to velocity . Hence, the velocity v is perpendicular to the electric field E .
Under which condition a charged particle moving with velocity V goes undeflected?
A charged particle will go undeflected in the electric field and magnetic field if the direction of force on particle due to electric field only acts in the direction of motion of the particle, i.e., the charged particles moves parallel to the electric field and magnetic field acts parallel to the direction of motion …
Is a particle moving with velocity v is equal to k?
A particle is moving with a velocity →v=K (y^i+x^j), where K is a constant. The general equation for its path is: Q. A force →F=→v×→A is exerted on a particle in addition to the force of gravity, where →v is the velocity of the particle and →A is a constant vector in the horizontal direction.
What does the velocity of a particle depends upon as V?
The velocity of a particle depends upon the time t according to the equation v=a+bt+cd+t.