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Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics PDF Download

Q.1. A charged particle moves in a helical path under the influence of a constant magnetic field. The initial velocity is such that the component along the magnetic field is half the component in the plane normal to the magnetic field. Find the ratio ℓ/R of the pitch ℓ to the radius R of the helical path.

Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics

Pitch of the helix
Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics


Q.2. The maximum energy of deuteron coming out of a cyclotron accelerator is 5 MeV.
(a) What is the maximum energy of protons that can be obtained from the accelerator?
(b) What is the maximum energy of a -particle that can be obtained from the accelerator?
(c) In a cyclotron, α-particles are accelerated using RF source of frequency 6 MeV.
What would be the frequency of RF source if α-particles are replaced by 2He3 particles?

(a)
Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics
(b)
Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics
(c)
Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics


Q.3. A particle with charge q and mass m moves linearly due to an electric field E = E0- ax, where a is a positive constant, x is the distance from the point where the particle was initially at rest.
(a) Find the distance covered by the particle till the moment it came to rest.
(b) Find the acceleration of the particle till the moment it came to rest.

(a) Acceleration of the particle is Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics
The equation of motion is, Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics
Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics
Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics
(b) The corresponding acceleration is,
Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics


Q.4. A particle of mass m carrying charge q is moving in a circle in a magnetic field B. According to Bohr’s model, find
(a) the radius of the particle in the nth level.
(b) the energy of the particle in the nth level.

(a)
Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics
(b)
Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics


Q.5. ConsiderMotion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics points in z -direction and Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics points in y -direction, and a particle of mass m and charge q at rest is released from origin.
(a) In which plane charge particle will confine.
(b) Write the coupled differential equation whose solution represents the path of the charged particle.
(c) Find the solution of coupled differential equation.
(d) Write the equation of cycloid.

Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics

If Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics points in z -direction and Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physicspoints in y -direction, and a particle at rest is released from origin, then particle will follow cycloid motion. Initially, the particle is at rest, so the magnetic force is zero, and the electric field accelerates the charge in y-direction. As it speeds up, a magnetic force develops which pulls the charge to the right. The faster it goes stronger the magnetic force becomes and it curves the particle back around towards the x-axis. At this point the charge is moving against the electric force, so it begins to slow down-the magnetic force then decreases, and the electrical force takes over, bringing the charge to rest at point a and then process repeats.
(a) Charge particle will confine in a plane that is perpendicular to Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics. So it will confine in 

xy -plane.
(b)  Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics
Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics
(c) Let us solve the above differential equations,
Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics
Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics
Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics
Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics
Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics
Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics
Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics
Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics
Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics
This is the formula for a circle, of radius R , whose center is ( Rwt, R, 0 ) travels in the x -direction at constant speed, Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics
The curve generated in this way is called a cycloid.


Q.6. Find the value of the magnetic field required to maintain non-relativistic protons of energy 1MeV in a circular orbit of radius 100mm. (Given: m= 1.67x10-27 kg, e= 1.6x10-19 C)

Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics
Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics
Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics

Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics


Q.7. The figure below shows the trajectory of a particle that is deflected as it moves through the uniform electric field between parallel plates. There is potential difference V and distance d between the plates, and they have length L. The particle (mass m, charge q) has nonrelativistic speed v before it enters the field, and its direction at this time is perpendicular to the field. For small deflections, which of the following expressions is the best approximation to the deflection angle θ ?

Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics

(a) Find the acceleration of the charged particle.
(b) Find the path of the charged particle
(c) Find angle of deflection when charged particle leaves the field region.

(a) Assuming that there is no magnetic field, one has from the Lorentz force F = ma = qE = qV / d , where one neglects gravitational acceleration.
The acceleration is constant, and it is a = qV /(dm).
(b) Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics
Thus path is parabolic.
(c) y = 0.5 at2 ⇒ dy = atdt and the fact that x = L = vt ⇒ dx = vdt and t = L / v, one can calculate the angle as
Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics
Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics


Q.8. A proton, deuteron and an α-particle having the kinetic energy K.Ep=2K, K.Ed =4K and K.Eα = 8K are moving in circular trajectories in a constant magnetic field. If Rp, Rd and Rα denote respectively the radii of the trajectories of these particles, then find the ratio  Rp : Rd : Rα.

Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics
Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics
Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics
⇒ Rp: Rd: Rα = 2:4:4 = 1:2:2


Q.9. A particle with charge q and momentum p is moving in the horizontal plane under the action of a uniform vertical magnetic field of magnitude B. Measurements are made of the particle’s trajectory to determine the “sagitta” s and half-chord length ℓ, as shown in the figure. Show that the particle’s momentum is qBℓ2/2s ? (Assume s << ℓ . )

Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics

Equating the centripetal force with the Lorentz Force, mv2 /R = qvB.
The radius of curvature used in the centripetal force equation is given by R2 = l2+ (R-s)2,
⇒ R= l2 + (R-s)2 = l2 + R2+s2 - 2RS ≈ l2 + R2 - 2Rs + O(s2)      ∵ s<<l
⇒ l2 = 2Rs ⇒ R = l2/(2s)
Now mv/R = qB ⇒ 2smv/l2 = qB ⇒ p = mv = qBl2/2s,


Q.10. The maximum relativistic kinetic energy of β-particles from a radioactive nucleus is equal to the rest mass energy of the particle. A magnetic field is applied perpendicular to the beam of β-particles, which bends it to a circle of radius R . Show that magnetic field needed is given by Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics (where m0 is rest mass energy)

KEmax = mc2 - m0c2 = m0c2 ⇒ m = 2m0

Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics
Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics

The document Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment | Electricity & Magnetism - Physics is a part of the Physics Course Electricity & Magnetism.
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FAQs on Motion of Charged Particle in Uniform Electric & Magnetic Field: Assignment - Electricity & Magnetism - Physics

1. What is the motion of a charged particle in a uniform electric field?
Ans. In a uniform electric field, a charged particle experiences a constant force in the direction of the field. This force causes the particle to accelerate uniformly, resulting in a linear motion in the direction of the electric field.
2. How does a magnetic field affect the motion of a charged particle?
Ans. A magnetic field can exert a force on a charged particle moving through it. This force is perpendicular to both the velocity of the particle and the magnetic field direction. As a result, the charged particle moves in a curved path or a circle, known as a helical motion, under the influence of the magnetic field.
3. How are electric and magnetic fields combined to affect the motion of a charged particle?
Ans. When a charged particle moves in both electric and magnetic fields simultaneously, the forces due to these fields combine. The resultant force determines the motion of the particle. If the electric and magnetic fields are perpendicular to each other, the particle moves in a helical path. If they are parallel or antiparallel, the particle experiences a combination of linear and circular motion.
4. What is the role of velocity in the motion of a charged particle in electric and magnetic fields?
Ans. The velocity of a charged particle plays a crucial role in determining its motion in electric and magnetic fields. The magnitude and direction of the velocity affect the strength and direction of the forces acting on the particle. Changes in velocity can lead to changes in the trajectory of the particle, such as altering the radius of the circular path or the pitch of the helical motion.
5. How can the motion of a charged particle in uniform electric and magnetic fields be described quantitatively?
Ans. The motion of a charged particle in uniform electric and magnetic fields can be described quantitatively using equations of motion and the Lorentz force law. These equations take into account the charge of the particle, the magnitudes of the electric and magnetic fields, and the velocity of the particle. By solving these equations, one can determine the trajectory, velocity, and acceleration of the charged particle at any given time.
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