Syllabus Edition

First teaching 2014

Last exams 2024

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Newton’s Law of Gravitation (DP IB Physics: SL)

Topic Questions

3 hours46 questions
1
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1 mark

What is the correct relationship between the gravitational force and the distance between two point masses?

  • F proportional to 1 over G

  • F proportional to 1 over m

  • F proportional to 1 over r squared

  • F proportional to r squared

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2
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1 mark

The force, F between two point masses is 10 N. The distance, r between the two masses is doubled. 

What is the new force between the two masses?

  • 2.5 N

  • 5 N

  • 20 N

  • 100 N

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3
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1 mark

The gravitational force, FG as shown on the diagram, keeps the Earth orbiting the Sun in a circular orbit.

6-2-newtons-law-of-gravitation-sl-mcqs-easy-q3-question

What type of force is FG?

  • Electrostatic force

  • Centripetal force

  • Centrifugal force

  • Contact force

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4
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1 mark

Which expression best describes the relationship between the orbital time period, T and the orbital radius, r?

  • T cubed proportional to r squared

  • T squared equals r cubed

  • T squared proportional to 1 over r cubed

  • T squared proportional to r cubed

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5
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1 mark

Which of the following is not an equation which can be used to calculate g, the gravitational field strength?

  • g equals F over m

  • g equals fraction numerator G M over denominator r squared end fraction

  • g equals F m

  • g equals fraction numerator w e i g h t over denominator m a s s end fraction

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6
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1 mark

Which of the following statements about gravitational force is true?

  • Gravitational force has a finite range

  • A greater gravitational force is exerted on objects with larger mass

  • On planets with a large value of g, the gravitational force per unit mass is smaller than on planets with a smaller value of g

  • An object's mass changes depending on the gravitational field strength at that point

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7
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1 mark

An alien of mass 100 kg lives on a planet with a gravitational field strength of 50 N kg−1

What is the weight of the alien on this planet?

  • 5000 N

  • 1000 N

  • 0.05 N

  • 100 N

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8
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1 mark

A commercial low-orbit space flight carries a passenger of mass 70 kg.

What is the approximate gravitational force of attraction between the Earth and the passenger?

  • 0 N

  • 7 N

  • 700 N

  • 7000 N

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9
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1 mark

A planet has twice the radius of the Earth and 4 times the mass. Assume the planet is spherical and of uniform density.

If the magnitude of the gravitational field strength on Earth is g, what is the magnitude of the gravitational field strength on the surface of the planet?

  • 4g

  • 8g

  • 2g

  • g

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10
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1 mark

Which graph, plotted on logarithmic axes, shows Kepler's Third Law for the planets in our Solar System?

  • 6-2-newtons-law-of-gravitation-sl-mcqs-easy-q10-answer-a

  • 6-2-newtons-law-of-gravitation-sl-mcqs-easy-q10-answer-b

  • 6-2-newtons-law-of-gravitation-sl-mcqs-easy-q10-answer-c

  • 6-2-newtons-law-of-gravitation-sl-mcqs-easy-q10-answer-d

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1
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1 mark

The mass of a potential landing module heading for Jupiter is 4000 kg. The gravitational field strength on Jupiter is roughly 2.5 times that on Earth. What is the weight of the landing module on Earth?

  • 4000 N

  • 100 000 N

  • 10 000 N

  • 40 000 N  

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2
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1 mark

A planet has triple the mass of Earth and a third of its radius. What is the gravitational field strength on the surface of the planet?

  • 10 N kg-1

  • 270 N kg-1

  • 90 N kg-1

  • 240 N kg-1

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3
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1 mark

The diagram below shows three uniform masses in a straight line.

q13_newtons-law-of-gravitation_ib-sl-physics-mcq

The resultant gravitational force on the 1 kg mass is zero if the distance x is:

  • 45 over 7 straight m

  • 45 m

  • 27 over 5 straight m

  • 35 m

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4
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1 mark

The gravitational force between two identical uniform spheres of mass M is F when the distance between them d.

q14_newtons-law-of-gravitation_ib-sl-physics-mcq

If the radius of each sphere is x, what is the correct expression for mass, M?

  • fraction numerator straight F left parenthesis d plus 2 x right parenthesis squared over denominator straight G end fraction

  • square root of fraction numerator straight F d squared over denominator straight G end fraction end root

  • square root of fraction numerator straight F left parenthesis d plus 2 x right parenthesis over denominator straight G end fraction end root

  • square root of fraction numerator straight F left parenthesis d plus 2 x right parenthesis squared over denominator straight G end fraction end root

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5
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1 mark

A satellite of mass m is placed in a geostationary orbit. If the Earth’s angular velocity is ω rad s–1, what is the circumference of the satellite’s orbit?

  • open parentheses fraction numerator G M over denominator omega squared end fraction close parentheses to the power of 1 third end exponent

  • 2 straight pi square root of GMm over straight omega squared end root

  • 2 straight pi open parentheses fraction numerator G M over denominator straight omega squared end fraction close parentheses

  • 2 straight pi open parentheses fraction numerator G M over denominator straight omega squared end fraction close parentheses to the power of 1 third end exponent

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6
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1 mark

A spherical planet of uniform density has two times the mass of the Earth and three times the average radius. The magnitude of the gravitational field strength at the surface of the Earth is g. What is the gravitational field strength at the surface of the planet?

  • 3 over 4 g

  • 2 over 3 g

  • 2 over 9 g

  • 18g

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7
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1 mark

The inverse square law means that halving the radius of a planet results in quadrupling the gravitational field strength at its surface.

The centres of two planets are separated by a distance R. The gravitational force between the two planets is F. What will the force between the planets be when their separation increases to 4R?

  • F over 16

  • 4F

  • F over 4

  • F

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8
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1 mark

A mass at point P gives rise to a gravitational field strength g at point X as shown.

q18_1_newtons-law-of-gravitation_ib-sl-physics-mcq

An identical mass is placed at point Q as shown.

q18_2_newtons-law-of-gravitation_ib-sl-physics-mcq

What is the resultant gravitational field strength at X in this new situation?

  • zero

  • between g and zero

  • between 2g and g 

  • greater than 2g

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9
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1 mark

A spacecraft travels away from Earth in a straight line with its motors shut down. At one instant, the speed of the spacecraft is 5.7 km s-1. After a time of 1000 s, the speed is 5.2 km s-1. The gravitational field strength acting on the spacecraft during this time interval is:

  • –5 × 10–4 N kg–1

  • 5 × 101 N kg–1

  • –5 × 10–1 N kg–1

  • –1 × 101 N kg–1

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10
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1 mark

Which of the following statements about uniform gravitational fields is incorrect?

  • The field strength is equal at every point in a uniform gravitational field

  • The acceleration of freefalling bodies is dependent on their mass

  • The field lines in a uniform gravitational field are parallel to each other  

  • There is a uniform gravitational field near the Earth’s surface

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1
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The weight of a body on the surface of a planet orbiting a star is 80 N. The star has twice the density of the planet and its diameter is 500 times greater. 

What is the weight of the body on the surface of the star?  

  • 40 kN

  • 80 kN

  • 120 kN

  • 160 kN

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2
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1 mark

Let r0 represent the radius of Earth.

Which of the following shows the variation of the magnitude of the Earth's gravitational field strength g with radial distance r from its centre of mass, r = 0?

You may assume that mass is uniformly distributed beneath the Earth's surface. 

6-2-sl-mcq-hard-q2-phy

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    3
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    1 mark

    At a point above a moon's surface and a distance xfrom its centre, the gravitational field strength is 5 N kg–1. At the moon's surface itself, the field strength is 9 N kg–1

    Which of the following gives the value for the radius of the planet? 

    • 5 x

    • 5 over 3 x

    • fraction numerator square root of 5 over denominator 3 end fraction x

    • square root of 5 over 3 end root x

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    4
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    1 mark

    A binary system consisting of a star of mass M and 5M orbit each other at a distance r between their centre of mass. The resultant gravitational field strength is zero along the line between their centres at a distance x from the centre of the star of mass M. What is the value of the ratio r over x

    You may wish to use the quadratic formula: 

    p equals fraction numerator negative b plus-or-minus square root of b squared minus 4 a c end root over denominator 2 a end fraction

    For solutions to the equation:

    a p squared plus b p plus c equals 0

    • fraction numerator square root of 5 over denominator 5 end fraction

    • square root of 1 fifth end root

    • 1 minus square root of 5

    • 1 plus square root of 5

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    5
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    1 mark

    Which single condition enables Newton's universal law of gravitation to be used to predict the force between two masses m1 and m2

    • m1 and m2 both have large radii

    • The radial distance between m1 and m2 is constant

    • m1 and m2 are very massive

    • m1 and m2 behave as point masses

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    6
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    1 mark

    A planet of mass m and radius r rotates so rapidly that material at its equator only just remains on its surface. What is the period of its rotation? 

    • 2 pi square root of r over G end root

    • 2 pi square root of G over r end root

    • 2 pi square root of fraction numerator r over denominator G m end fraction end root

    • 2 pi square root of fraction numerator r cubed over denominator G m end fraction end root

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    7
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    1 mark

    Two planetary systems, very far apart from each other, have suns with masses S1 and S2. They each have exoplanets P1 and P2 of mass m1 and m2 respectively, which are observed to have circular orbits of equal radii. If P1 completes an orbit in 1 thirdthe time taken by P2, which of the following may be deduced? 

    • S1S2 and m1 = 3m2

    • S1 = 3S2

    • S1 = 3S2 and m1 = m2

    • S1 = 9S2 only

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    8
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    1 mark

    Two spherical bodies have the same radius, but one has thrice the mass of the other. At which point, A-D on the diagram below, could the resultant gravitational field of the two masses have the greatest magnitude? 

    6-2-sl-mcq-hard-q8-phy

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      9
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      1 mark

      A mass m is placed at the centre of a thin, hollow, spherical shell of mass M and radius r

      6-2-sl-mcq-hard-q9-phy

      What is the magnitude of the resultant gravitational force on m and M

        Magnitude of resultant gravitational force on m Magnitude of resultant gravitational force on M
      A. 0 fraction numerator G M m over denominator r squared end fraction
      B. fraction numerator G M m over denominator r squared end fraction fraction numerator G M m over denominator r squared end fraction
      C. 0 0
      D. fraction numerator G M m over denominator r squared end fraction 0

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        10
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        1 mark

        Two stationary bodies of mass m1 and m2 are a distance d apart. A third body, situated on the line joining m1 and m2, experiences no resultant gravitational force. Which of the following is a possible distance between the third body and m1

        • x equals fraction numerator square root of m subscript 1 end root over denominator square root of m subscript 1 end root minus square root of m subscript 2 end root end fraction

        • x equals d open parentheses fraction numerator square root of m subscript 1 end root over denominator square root of m subscript 1 end root minus square root of m subscript 2 end root end fraction close parentheses

        • x equals fraction numerator square root of m subscript 2 end root over denominator square root of m subscript 1 end root minus square root of m subscript 2 end root end fraction

        • x equals d open parentheses fraction numerator square root of m subscript 2 end root over denominator square root of m subscript 1 end root minus square root of m subscript 2 end root end fraction close parentheses

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