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Date November 2018 Marks available 2 Reference code 18N.2.HL.TZ0.1
Level Higher level Paper Paper 2 Time zone 0 - no time zone
Command term Determine Question number 1 Adapted from N/A

Question

Ion-thrust engines can power spacecraft. In this type of engine, ions are created in a chamber and expelled from the spacecraft. The spacecraft is in outer space when the propulsion system is turned on. The spacecraft starts from rest.

The mass of ions ejected each second is 6.6 × 10–6 kg and the speed of each ion is 5.2 × 104 m s–1. The initial total mass of the spacecraft and its fuel is 740 kg. Assume that the ions travel away from the spacecraft parallel to its direction of motion.

An initial mass of 60 kg of fuel is in the spacecraft for a journey to a planet. Half of the fuel will be required to slow down the spacecraft before arrival at the destination planet.

In practice, the ions leave the spacecraft at a range of angles as shown.

Determine the initial acceleration of the spacecraft.

[2]
a.

(i) Estimate the maximum speed of the spacecraft.

(ii) Outline why the answer to (i) is an estimate.

[3]
b.i.

Outline why scientists sometimes use estimates in making calculations.

[1]
b.iii.

Outline why the ions are likely to spread out.

[2]
c.i.

Explain what effect, if any, this spreading of the ions has on the acceleration of the spacecraft.

[2]
c.ii.

Markscheme

change in momentum each second = 6.6 × 10−6 × 5.2 × 104 «= 3.4 × 10−1 kg m s−1» ✔

acceleration = « 3.4 × 10 1 740 =» 4.6 × 10−4 «m s−2» ✔

a.

(i) ALTERNATIVE 1:

(considering the acceleration of the spacecraft)

time for acceleration =  30 6.6 × 10 6 = «4.6 × 106» «s» ✔

max speed = «answer to (a) × 4.6 × 106 =» 2.1 × 103 «m s−1» ✔

 

ALTERNATIVE 2:

(considering the conservation of momentum)

(momentum of 30 kg of fuel ions = change of momentum of spacecraft)

30 × 5.2 × 10= 710 × max speed ✔

max speed = 2.2 × 10«m s−1» ✔

 

(ii) as fuel is consumed total mass changes/decreases so acceleration changes/increases
OR
external forces (such as gravitational) can act on the spacecraft so acceleration isn’t constant ✔

b.i.

problem may be too complicated for exact treatment ✔

to make equations/calculations simpler ✔

when precision of the calculations is not important ✔

some quantities in the problem may not be known exactly ✔

b.iii.

ions have same (sign of) charge ✔

ions repel each other ✔

c.i.

the forces between the ions do not affect the force on the spacecraft. ✔

there is no effect on the acceleration of the spacecraft. ✔

c.ii.

Examiners report

[N/A]
a.
[N/A]
b.i.
[N/A]
b.iii.
[N/A]
c.i.
[N/A]
c.ii.

Syllabus sections

Core » Topic 2: Mechanics » 2.4 – Momentum and impulse
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