Consider a particle with a charge-to-mass ratio of ?/? = 1 moving in a uniform magnetic...

(a) Qualitative motion

Draw a diagram of the situation when the proton starts its motion, showing its instantaneous velocity v0, the magnetic field vector B and the direction of the initial force F0 on the proton.

Describe how the velocity of the proton will change as it moves through the magnetic field. Describe changes, if any, in both the magnitude and direction of the velocity.

Describe the path the proton will follow in going through this uniform magnetic field.

Calculate the speed v of the proton.

[8 marks]

(b) Quantitative motion

Determine the magnetic force acting on the proton initially.

Find the radius of the circular path the proton follows in terms of its charge q, mass m and speed v, and the strength of the magnetic field B. Then, calculate the numerical value of that radius for the proton.

Determine the time required and the angular frequency for one complete revolution.

[6 marks]

Starting with the magnetic force on the particle and using Newton's second law to write down the differential equations for the components ax , ay and az of the acceleration a acting on the particle.

Describe the motion of the particle in z-direction if the initial velocity component in that direction vz is not zero. Describe how the overall motion of the particle changes in that case .

[6 marks]

Solutions

Expert Solution

If you find this answer helpful, please give it a thumbs up. Thank you.

genius_generous answered 1 year ago

Next > < Previous

Related Solutions

Consider a particle with a charge-to-mass ratio of ?/? = 1 moving in a uniform magnetic...

Consider a particle with a charge-to-mass ratio of ?/? = 1 moving in a uniform magnetic field of B = 1 Tesla applied in z-direction. At time t = 0 s, it is located at r = (0, 10, 0) m and its velocity is v = (10, 0, 0) m/s. (a) Qualitative motion Draw a diagram of the situation when the proton starts its motion, showing its instantaneous velocity v0, the magnetic field vector B and the direction of...

A uniform magnetic field is directed into the page. A charged particle, moving in the plane...

A uniform magnetic field is directed into the page. A charged particle, moving in the plane of the page, follows a clockwise spiral of decreasing radius as shown. A reasonable explanation is: a.the charge is negative and speeding up b.none of these c.the charge is negative and slowing down d.the charge is positive and slowing down e.the charge is positive and speeding up

A uniform magnetic field exerts a force on a moving charge which is equal to the...

A uniform magnetic field exerts a force on a moving charge which is equal to the charge times the vector product of the velocity and the magnetic field. Can this force change the magnitude of the velocity of the charge? Explain. Can both uniform electric and magnetic fields exist (for non-zero fields) where the net force on a charge is zero? If so, what are the constraints on the fields? If not, why not?

A positively-charged particle is moving in the +x-direction. A uniform magnetic field in the +z direction...

A positively-charged particle is moving in the +x-direction. A uniform magnetic field in the +z direction is then applied. What is the direction of the magnetic force on the charge?

At time t=0 a positively charged particle of mass m=5.95 g and charge q=10.8 μC is injected into the region of the uniform magnetic

At time t=0 a positively charged particle of mass m=5.95 g and charge q=10.8 μC is injected into the region of the uniform magnetic B=B k and electric E=−E k fields with the initial velocity v=v0 i. The magnitudes of the fields: B=0.43 T, E=722 V/m, and the initial speed v0=3.42 m/s are given. Find at what time t, the particle's speed would become equal to v(t)=4.14·v0: t =____ seconds.

1. A moving particle with a charge of 6.52 is accelerated through a potential difference of...

1. A moving particle with a charge of 6.52 is accelerated through a potential difference of 234mV. Find the final velocity of the particle if its initial velocity is 5.24m/s. (mass of the charged particle=154g). 2. An unpolarized beam passes through a system containing three ideal polarizers. the first polarizer is oriented with a horizontal transmission axis, the second one has its transmission axis at 70.4degrees from the horizontal, and the third filter has a vertical transmission axis. What percent...

Consider the one-dimensional motion of a particle of mass ? in a space where uniform gravitational...

Consider the one-dimensional motion of a particle of mass ? in a space where uniform gravitational acceleration ? exists. Take the vertical axis ?. Using Heisenberg's equation of motion, find the position-dependent operators ? ? and momentum arithmetic operator ?? in Heisenberg display that depend on time. In addition, calculate ??, ?0, ??, ?0.

Consider an object of mass m1 = 0.360 kg moving with a uniform speed of 5.40...

Consider an object of mass m1 = 0.360 kg moving with a uniform speed of 5.40 m/s on a frictionless surface. This object makes an elastic head-on collision with another object of mass m2 = 0.645 kg which is initially at rest. (a) Find the speed of m1 immediately after collision. m/s (b) Find the speed of m2 immediately after collision m/s

What is the differences between : Mass-to-charge ratio Charge-to-mass ratio Charge-to-size ratio I'm confused about these...

What is the differences between : Mass-to-charge ratio Charge-to-mass ratio Charge-to-size ratio I'm confused about these three terms ?

What role does magnetic field play in charge to mass ratio experiment? PLEASE EXPLAIN

Subjects