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A vehicle, of total mass 1200 kg, is travelling along a straight, horizontal road at a constant speed of 13 ms⁻¹ - AQA - A-Level Maths Mechanics - Question 13 - 2021 - Paper 2

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A vehicle, of total mass 1200 kg, is travelling along a straight, horizontal road at a constant speed of 13 ms⁻¹. This vehicle begins to accelerate at a constant ra... show full transcript

Worked Solution & Example Answer:A vehicle, of total mass 1200 kg, is travelling along a straight, horizontal road at a constant speed of 13 ms⁻¹ - AQA - A-Level Maths Mechanics - Question 13 - 2021 - Paper 2

Step 1

Use the equation for constant acceleration

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Answer

To find the acceleration of the vehicle, we will use the equation of motion given by:

v2=u2+2asv^2 = u^2 + 2as

where:

  • vv = final velocity = 17 ms⁻¹
  • uu = initial velocity = 13 ms⁻¹
  • aa = acceleration (unknown)
  • ss = distance = 40 m

Substituting the known values into the equation:

172=132+2a(40)17^2 = 13^2 + 2a(40)

This can be simplified to:

289=169+80a289 = 169 + 80a

Rearranging gives: 289169=80a120=80aa=12080=1.5ms2289 - 169 = 80a \\ 120 = 80a \\ a = \frac{120}{80} = 1.5 \, ms^{-2}.

Step 2

Substituting acceleration into the force equation

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Answer

Now that we have found the acceleration, we can find the resultant force using Newton's second law:

F=maF = ma

Where:

  • FF = resultant force
  • mm = mass = 1200 kg
  • aa = acceleration = 1.5 ms⁻²

Substituting the known values:

F=1200imes1.5=1800NF = 1200 imes 1.5 = 1800 \, N.

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