Starter On whiteboards… Write down four examples of scalar quantities and four examples of vector quantities. Scalars; Length, area, volume Speed Mass.

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Presentation transcript:

Starter On whiteboards… Write down four examples of scalar quantities and four examples of vector quantities. Scalars; Length, area, volume Speed Mass Density Pressure Temperature Energy, work, power Entropy Vectors; Velocity Momentum Acceleration Force (lift, drag, thrust, weight etc.) Displacement

Naming forces All forces can be written as ‘the push/pull of………on……….’. Rewrite these; Weight Friction Air Resistance Lift Thrust Reaction Tension

Rules for Free Body Diagrams A free body diagram separates an object from its situation and focusses only on the forces acting ON THE OBJECT. This means we can make predictions about its behaviour. e.g. draw a free body diagram of a book on a table. 1. Sketch the object you are focussing on and nothing else.

Rules for Free Body Diagrams 2. Make sure you only draw forces acting from the centre of the object (its centre of gravity) 3. Draw on the forces that are acting on the object.

Rules for Free Body Diagrams 3. Label the forces

Free Body Diagrams Try it for these situations… 3. 1. 4. 2.

Galileo’s ideas He was unimpressed with Aristotles ‘obvious’ explanation of motion and decided to think for himself. Whatever happened the bob returned to the same height.

Newton’s First Law Objects at rest OR constant velocity stay at rest OR constant velocity unless acted upon by an external force. So, basically, if it’s stopped it’s gonna stay stopped unless you push it. If it’s travelling at a steady speed it’s gonna carry on unless you push it. Easy. If ΣF on the object = 0 then Δv = 0. Nice.