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(a) State what is meant by a magnetic field. (b) A charged particle of mass m and charge +q

 Q#16

(a) State what is meant by a magnetic field. [2]


(b) A charged particle of mass and charge +is travelling with velocity in a vacuum.
It enters a region of uniform magnetic field of flux density B, as shown in Fig. 5.1.


Fig. 5.1

The magnetic field is normal to the direction of motion of the particle. The path of the
particle in the field is the arc of a circle of radius r.                              

(i) Explain why the path of the particle in the field is the arc of a circle. [2]

(ii) Show that the radius is given by the expression
mv / Bq
 [2]


(c) A thin metal foil is placed in the magnetic field in (b).
A second charged particle enters the region of the magnetic field. It loses kinetic energy
as it passes through the foil. The particle follows the path shown in Fig. 5.2.


Fig. 5.2

(i) On Fig. 5.2, mark with an arrow the direction of travel of the particle. [1]

(ii) The path of the particle has different radii on each side of the foil.
The radii are 7.4 cm and 5.7 cm.
Determine the ratio
final momentum of particle
initial momentum of particle

for the particle as it passes through the foil. [2]



Solution:
(a) A magnetic field is a region (of space) where there is a force on a moving charge.


(b)
(i) The force on the particle is (always) normal to the velocity / direction of travel. The speed of the particle is constant.


(ii)
{The magnetic force provides the centripetal force.}
mv2 / r = Bqv

{Make r the subject of formula.}
Radius r = mv / Bq


(c)
(i) The direction is from ‘bottom to top’ of the diagram

{From Fig 5.2, we can observe that the path is NOT the arc of a circle as in Fig 5.1.
We are 2 options for the direction of the path: either from right to left or from bottom to top of the diagram.

As the charged particle passes through the coil, it loses some kinetic energy. Its speed v decreases and so, the radius of the path also decreases (since r = mv / Bq). In the diagram, this reduction can be observed as we pass through the foil from the bottom to top and NOT from right to left along the path.}


(ii)
The radius is proportional to momentum.

{r = mv / Bq
mv = p where p is the momentum.

r = p / Bq
B (same field) and q (same particle) are constant.
So, the momentum p (= mv) is directly proportional to r.

Ratio = final momentum / initial momentum
Ratio = final radius / initial radius}

Ratio = 5.7 / 7.4 = 0.77

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