A fixed rough plane is inclined at 30° to the horizontal. A small smooth pulley P is fixed at the top of the plane. Two particles A and B, of mass 2 kg and 4 kg respectively, are attached to the ends of a light inextensible string which passes over the pulley P. The part of the string from A to P is parallel to a line of greatest slope of the plane and B hangs freely below P, as shown in Figure 2. The coefficient of friction between A and the plane is $$ rac{1}{ oot{3}} $$ Initially A is held at rest on the plane. The particles are released from rest with the string taut and A moves up the plane. Find the tension in the string immediately after the particles are released.

A-Level Edexcel Maths Mechanics Further Forces & Newtons Laws: A fixed rough plane is inclined

A fixed rough plane is inclined at 30° to the horizontal - Edexcel - A-Level Maths Mechanics - Question 3 - 2013 - Paper 2

Question 3

A fixed rough plane is inclined at 30° to the horizontal. A small smooth pulley P is fixed at the top of the plane. Two particles A and B, of mass 2 kg and 4 kg resp... show full transcript

Worked Solution & Example Answer:A fixed rough plane is inclined at 30° to the horizontal - Edexcel - A-Level Maths Mechanics - Question 3 - 2013 - Paper 2

Step 1

Find the equation of motion for particle B

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Answer

For the particle B (mass 4 kg), the equation can be expressed as:

$4g - T = 4a$

where $g$ is the acceleration due to gravity, $T$ is the tension in the string, and $a$ is the acceleration of the system.

Step 2

Find the equation of motion for particle A

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Answer

For the particle A (mass 2 kg), the equation considering force resolution would be:

$T - F - 2g ext{sin}(30°) = 2a$

Here, $F$ is the frictional force, and the component of weight acting parallel to the plane is calculated as $2g ext{sin}(30°)$ .

Step 3

Resolve the forces acting on particle A

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The normal force $R$ acting on particle A can be resolved perpendicular to the plane, resulting in:

$R = 2g ext{cos}(30°)$

Given that the coefficient of friction $rac{1}{ oot{3}}$ , we can find the frictional force as:

oot{3}} R = rac{1}{ oot{3}} (2g ext{cos}(30°)) $$

Step 4

Substitute values to find tension T

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By substituting the equations from the previous steps, we can equate and solve for tension T. The equation simplifies to:

2T - 4g = 2a $$ After deriving the values on both equations, we can isolate T to find: $$ T = rac{8g}{3} $$ This results in a specific tension immediately after release.

A fixed rough plane is inclined at 30° to the horizontal - Edexcel - A-Level Maths Mechanics - Question 3 - 2013 - Paper 2

Worked Solution & Example Answer:A fixed rough plane is inclined at 30° to the horizontal - Edexcel - A-Level Maths Mechanics - Question 3 - 2013 - Paper 2

Find the equation of motion for particle B

Find the equation of motion for particle A

Resolve the forces acting on particle A

Substitute values to find tension T

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