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When a charged particle enters in a uniform magnetic field then its kinetic energy ..becomes?
When a charged particle enters a uniform magnetic field, its kinetic energy remains constant. This is because the magnetic field exerts a force perpendicular to the particle's velocity, which changes the direction of the particle's motion but does not work on it. As a result, the speed of the particle—and thus its kinetic energy—remains unchanged, leading to circular or helical motion.
Is water defected by a non uniform electrostatic field?
Yes, water can be deflected by a non-uniform electrostatic field. Water molecules are polar, meaning they have a positive charge on one end and a negative charge on the other. When a non-uniform electrostatic field is applied, the positive and negative ends of the water molecules will experience different forces, causing the water to be deflected.
What is a neutral electric charge?
-a definition of uniform electric charge-A dispersed colloidal particle can adsorb electically caharaged particles(ions) on its surface. The charged species adsorbed on the surface of a given kind of colloidal particle may be either positive or negative
Two identical charged particles moving with same speed enter a region of uniform magnetic field If one of these enters normal to the field direction and the other enters along a direction at 30 with?
So the forces acting on these charges have to be compared. Is it so? The famous formula meant to know about the force acting on a moving charged particle entering into a magnetic field is given as F = B q v sin@ Here @ is the angle inclined by the moving particle with the magnetic field. In the first case @ = 90 deg. As sin90 = 1 the force is Bqv. In second case @ = 30 deg. As sin 30 = 1/2 the force is 1/2 Bqv. Hence the force on the latter will be half of that on the earlier one.
What date was the plum pudding model atom model invented?
The plum pudding model of the atom was proposed by J.J. Thomson in 1904. It suggested that an atom was a uniform, positively charged sphere with embedded negatively charged electrons.
What is the relationship between the potential difference and the motion of a charged particle in a uniform electric field?
The potential difference in a uniform electric field affects the motion of a charged particle by determining the direction and speed of its movement. The greater the potential difference, the stronger the force on the charged particle, leading to faster motion in the direction of the field.
What is the Acceleration of a charged particle of charge q and mass m moving in a uniform electric field of strength E?
The acceleration of a charged particle in a uniform electric field is given by the equation a = qE/m, where q is the charge of the particle, E is the strength of the electric field, and m is the mass of the particle. This acceleration is constant and directed in the direction of the electric field.
When a charged particle enters in a uniform magnetic field then its kinetic energy ..becomes?
When a charged particle enters a uniform magnetic field, its kinetic energy remains constant. This is because the magnetic field exerts a force perpendicular to the particle's velocity, which changes the direction of the particle's motion but does not work on it. As a result, the speed of the particle—and thus its kinetic energy—remains unchanged, leading to circular or helical motion.
What are examples of parabolas in physics?
A mass shot at an angle in a uniform gravitational field and a charged particle shot at an angle through a uniform electric field. The mass and the particle in their respective situations will both follow the path of a parabola (both will have a constant velocity perpendicular to the field and a constantly changing velocity parallel to the field).
Every charged particle produces a?
It produced a magnetic field. If it's charged, it can be negative OR positive. It's magnetic because if they're both alike signs (both positive or both negative) they repel like magnets. If one particle is positive and one is negative, they attract like magnets.
Is water defected by a non uniform electrostatic field?
Yes, water can be deflected by a non-uniform electrostatic field. Water molecules are polar, meaning they have a positive charge on one end and a negative charge on the other. When a non-uniform electrostatic field is applied, the positive and negative ends of the water molecules will experience different forces, causing the water to be deflected.
Are electrostatic paint sprayers beneficial?
Yes, electrostatic paint sprayers are beneficial as they create a more efficient and uniform paint application process. The charged paint particles are attracted to the surface being painted, resulting in less overspray and more even coverage. This can lead to reduced paint waste, improved finish quality, and better adhesion.
If the acceleration of a charged particle between plates in a plate capacitor is a at halfway between the plates why will the particle experience the same acceleration when its 1 quarter of the way?
The acceleration of a charged particle between plates in a plate capacitor is constant due to the uniform electric field between the plates. Since the field strength remains the same between the plates, the particle will experience the same acceleration regardless of its position if it is perpendicular to the field lines.
Are particle arranged in solid?
Regularly (even and uniform) and close together.
How you find answers of aipmt2008?
a particle of mass m charge q & the K.E T enters a transverse uniform magnetic field of induction B after 3 sec the K.E of particle will be a particle of mass m charge q & the K.E T enters a transverse uniform magnetic field of induction B after 3 sec the K.E of particle will be a particle of mass m charge q & the K.E T enters a transverse uniform magnetic field of induction B after 3 sec the K.E of particle will be
3 What factors affect the increase of the centripetal force on a particle in uniform circular motion?
The centripetal force on a particle in uniform circular motion increases with the speed of the particle and the radius of the circular path. The mass of the particle also affects the centripetal force, as a heavier particle requires a stronger force to keep it moving in a circle at a constant speed.
What factors affect the increase of the centripetal force on a particle in uniform circular motion?
Increase in radius affect the increase of the centripetal force on a particle in uniform circular motion. An increase in radius would cause a decrease in the force if velocity remains constant.
