AQA M1 — Question 7

Exam BoardAQA
ModuleM1 (Mechanics 1)
PaperDownload PDF ↗
Mark schemeDownload PDF ↗
TopicPulley systems
TypeTwo particles over pulley, vertical strings
DifficultyModerate -0.8 This is a standard M1 pulley question with straightforward application of Newton's second law. Part (a) requires simple equilibrium reasoning (T = mg), part (b) involves setting up two equations (ma = mg - T and ma = T - mg) and solving simultaneously for tension. The arithmetic is routine and the problem follows a well-practiced template with no novel insight required.
Spec3.03b Newton's first law: equilibrium3.03c Newton's second law: F=ma one dimension3.03d Newton's second law: 2D vectors3.03k Connected particles: pulleys and equilibrium3.03l Newton's third law: extend to situations requiring force resolution
7 A builder ties two identical buckets, \(P\) and \(Q\), to the ends of a light inextensible rope. He hangs the rope over a smooth beam so that the buckets hang in equilibrium, as shown in the diagram. \includegraphics[max width=\textwidth, alt={}, center]{6151e6ab-30af-4d1c-ab4a-e7dbad170cbf-007_360_296_502_904} The buckets are each of mass 0.6 kg .
    1. State the magnitude of the tension in the rope.
    2. State the magnitude and direction of the force exerted on the beam by the rope.
  2. The bucket \(Q\) is held at rest while a stone, of mass 0.2 kg , is placed inside it. The system is then released from rest and, in the subsequent motion, bucket \(Q\) moves vertically downwards with the stone inside.
    1. By forming an equation of motion for each bucket, show that the magnitude of the tension in the rope during the motion is 6.72 newtons, correct to three significant figures.
    2. State the magnitude of the force exerted on the beam by the rope while the motion takes place.
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Question 7:
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I appreciate you sharing this, but the content you've provided appears to be incomplete or corrupted. It only shows:

Question 7:
7
7
7
7
7
7

There is no actual mark scheme content with marking annotations (M1, A1, B1, DM1, etc), guidance notes, or mathematical symbols to clean up.

Could you please provide the full mark scheme content for Question 7? Once you share the complete text, I'll be happy to clean it up and convert any unicode symbols to LaTeX notation as requested.
7 A builder ties two identical buckets, $P$ and $Q$, to the ends of a light inextensible rope. He hangs the rope over a smooth beam so that the buckets hang in equilibrium, as shown in the diagram.\\
\includegraphics[max width=\textwidth, alt={}, center]{6151e6ab-30af-4d1c-ab4a-e7dbad170cbf-007_360_296_502_904}

The buckets are each of mass 0.6 kg .
\begin{enumerate}[label=(\alph*)]
\item \begin{enumerate}[label=(\roman*)]
\item State the magnitude of the tension in the rope.
\item State the magnitude and direction of the force exerted on the beam by the rope.
\end{enumerate}\item The bucket $Q$ is held at rest while a stone, of mass 0.2 kg , is placed inside it. The system is then released from rest and, in the subsequent motion, bucket $Q$ moves vertically downwards with the stone inside.
\begin{enumerate}[label=(\roman*)]
\item By forming an equation of motion for each bucket, show that the magnitude of the tension in the rope during the motion is 6.72 newtons, correct to three significant figures.
\item State the magnitude of the force exerted on the beam by the rope while the motion takes place.
\end{enumerate}\end{enumerate}

\hfill \mbox{\textit{AQA M1  Q7}}
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