Question 7 - A-Level Maths

CAIE M2 2013 June — Question 7

Exam Board	CAIE
Module	M2 (Mechanics 2)
Year	2013
Session	June
Paper	Download PDF ↗
Mark scheme	Download PDF ↗
Topic	Variable Force
Type	Distance traveled with variable force
Difficulty	Challenging +1.2 This is a variable force mechanics problem requiring integration of F=ma with a position-dependent force. Part (i) uses energy methods with a straightforward integral to find k, while part (ii) applies the same technique with gravity included. The integration of 1/(1-x) is standard A-level calculus, and the problem follows a clear structure with given numerical answer to verify in part (i), making it moderately above average but not requiring novel insight.
Spec	1.08h Integration by substitution 3.02f Non-uniform acceleration: using differentiation and integration 6.02c Work by variable force: using integration 6.02i Conservation of energy: mechanical energy principle

7 A small ball \(B\) of mass 0.2 kg moves in a narrow fixed smooth cylindrical tube \(O A\) of length 1 m , closed at the end \(A\). When the ball has displacement \(x \mathrm {~m}\) from \(O\), it has velocity \(v \mathrm {~ms} ^ { - 1 }\) in the direction \(O A\) and experiences a resisting force of magnitude \(\frac { k } { 1 - x } \mathrm {~N}\).

\includegraphics[max width=\textwidth, alt={}, center]{10abedc3-c814-47c0-8ed4-849ef325feca-4_186_805_488_715} The tube is fixed in a horizontal position and \(B\) is projected from \(O\) towards \(A\) with velocity \(1.2 \mathrm {~m} \mathrm {~s} ^ { - 1 }\) (see diagram). Given that \(B\) comes to instantaneous rest after travelling 0.55 m , show that \(k = 0.1803\), correct to 4 significant figures.
The tube is now fixed in a vertical position with \(O\) above \(A\). The ball \(B\) is released from rest at \(O\). Calculate the speed of \(B\) after it has descended 0.1 m . \end{document}

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7 A small ball $B$ of mass 0.2 kg moves in a narrow fixed smooth cylindrical tube $O A$ of length 1 m , closed at the end $A$. When the ball has displacement $x \mathrm {~m}$ from $O$, it has velocity $v \mathrm {~ms} ^ { - 1 }$ in the direction $O A$ and experiences a resisting force of magnitude $\frac { k } { 1 - x } \mathrm {~N}$.\\
(i)\\
\includegraphics[max width=\textwidth, alt={}, center]{10abedc3-c814-47c0-8ed4-849ef325feca-4_186_805_488_715}

The tube is fixed in a horizontal position and $B$ is projected from $O$ towards $A$ with velocity $1.2 \mathrm {~m} \mathrm {~s} ^ { - 1 }$ (see diagram). Given that $B$ comes to instantaneous rest after travelling 0.55 m , show that $k = 0.1803$, correct to 4 significant figures.\\
(ii) The tube is now fixed in a vertical position with $O$ above $A$. The ball $B$ is released from rest at $O$. Calculate the speed of $B$ after it has descended 0.1 m .


\end{document}

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