Lecture 8. Torque. and Equilibrium. Pre-reading: KJF 8.1 and 8.2

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Lecture 8 Torque and Equilibrium Pre-reading: KJF 8.1 and 8.2

Archimedes Lever Rule At equilibrium (and with forces 90 to lever): r 1 F 1 = r 2 F 2 2

General Lever Rule For general angles r 1 F 1 sin θ 1 = r 2 F 2 sin θ 2 We call rf sinθ = τ torque S.I. unit of torque: newton metre (Nm) At equilibrium, the magnitude of torques exerted at each end of lever are equal KJF 7.2 3

What is torque? Crudely speaking, torque is "twisting or turning ability" of a force that can: change the angular velocity of an object (i.e. speed up or slow down rotation) cause a twisting or bending distortion of an object A force with a "line of action" that does not cross the axis of rotation results in torque. 4

Note: torque is measured about a particular point. Usually this will be a hinge, pivot or axis torque has a sign. All forces that tend to rotate the object in the same direction produce torque with the same sign 5

Calculating torque (1) Example: Calculate torque on lever exerted by hand: Choose a sign convention (e.g. anti-clockwise +ve), then decide in which direction force is pulling or pushing lever. Write that sign in front of your answer. Method 1: If you're given r and θ, use formula for torque (magnitude) τ = r F sinθ (Note: sinθ = sinφ, it doesn t matter which angle you use) 6

Calculating torque (2) Method 2: If you're given d the perpendicular distance from axis to the line of action, then use formula τ = d F If the line of action crosses the axis (i.e. d = 0) then τ = 0 7

Opening a door If r is perpendicular to F, then torque τ = r F If r is not perpendicular to F, then torque τ = r F sinθ where θ is the angle between r and F Axis of rotation r F What happens if you push in the middle of the door; do you need more or less force? Why? What happens if you push along a line passing through axis of rotation? Explain. 8

Problem The length of a bicycle pedal arm is r = 0.152 m, and a downward force of F = 111 N is applied by the foot. What is the magnitude of torque about the pivot point when the angle θ between the arm & vertical is; (a) 30.0? (b) 90.0? (c) 180.0? [8.44 Nm, 16.9 Nm, 0.00 Nm] 9

Adding up Torques We will only consider torques acting in 2D (flat on page) Choose a sign convention (e.g. anti-clockwise is positive). Choose the rotation axis around which to calculate torque (unless it's already given). Draw the line of action for each force For each force, calculate the resulting torque (including sign). Add up all the torques. KJF 7.2, see p. 214 10

F1 F2 11

12

13

Adding up Torques: Example torque 1; τ 1 = rf 1 sinθ = 0.5 10 sin 30 = 2.50 Nm torque 2; τ 2 = +mgd = 1 9.8 0.25 = +2.45 Nm net torque = τ = τ 1 + τ 2 = 2.45 + ( 2.50) = 0.05 Nm (i.e. clockwise) 14

EQUILIBRIUM KJF 8.1, 8.2 15

Conditions for Equilibrium For an object to be in static equilibrium Σ F = 0 no net force Σ F x = 0, Σ F y = 0 Σ τ = 0 no net torque Because this is true for all pivot points, we are free to choose any point we like for calculating the torque choose point where some torques disappear KJF 8.1 16

Hints for Statics Problems Usually you're given some forces on a static body & need to find unknown forces or torques. Draw a diagram! Decide on system Put in forces ON system only All forces in mechanics are either contact or gravity Define sign conventions 17

Solving Static Equilibrium Problems Decide on the system Choose a rotational axis and sign convention Best to choose one that causes some torques to disappear Remember nothing is rotating anyway so you're free to choose the axis. Calculate all horizontal components of forces acting on the system and write equation F h = 0. Calculate all vertical components of forces acting on the system and write equation F v = 0. Assume each object s weight force is acting at its centre of mass. Calculate all torques and write equation τ = 0. Remember that all external forces are possible sources of torque. Solve the equations simultaneously. KJF 8.1 18

Example A 65 kg woman is horizontal in a push-up position. What are the vertical forces acting on her hands and her feet? [hands 420 N, feet 210 N] 19

Example 2 The system is the ass, the cart and the cargo. Here the cargo is loaded correctly. Whatever rotation axis is chosen, there's always some normal forces opposing the torque due to the total system weight (treated as though it lies at the centre of mass) No net torque equilibrium. 20

But... Too much cargo is loaded at the back. If the wheel is chosen as the rotation axis, all resulting torques are acting in the clockwise direction. There is no torque opposing the torque due to the weight of the system, hence there is a net clockwise torque. The system will rotate until the cart hits the ground. The donkey will be lifted off the ground. 21

22

23

Types of Equilibrium Neutral: with a small displacement, remains at new position. Stable: with a small displacement, returns to original position. Unstable: with a small displacement, continues to move away from equilibrium position. KJF 8.2 24

Stable net torque around X N 25 W X

Neutral NO net torque around X N 26 W X

Unstable net torque around X N 27 X W

28

NEXT LECTURE Momentum, impulse and energy Read: KJF 9.1, 9.2

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