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AQA Science © Nelson Thornes Ltd 2006 1 P3 1 Summary Turning forces.

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Presentation on theme: "AQA Science © Nelson Thornes Ltd 2006 1 P3 1 Summary Turning forces."— Presentation transcript:

1 AQA Science © Nelson Thornes Ltd 2006 1 P3 1 Summary Turning forces

2 P3 1 Summary AQA Science © Nelson Thornes Ltd 2006 2 What is a moment? A moment is the turning effect of a force. Moment= force  perpendicular distance from the pivot to the line of action of the force = F  d F is the force in newtons. d is the perpendicular distance from the pivot in metres. The unit of a moment is newton metres (Nm).

3 P3 1 Summary AQA Science © Nelson Thornes Ltd 2006 3 Using levers Calculating moments is important when you use levers. The weight is called the load. The force you apply to the crowbar is the effort. The point about which the crowbar turns is the pivot. Levers enable you to lift heavy loads with little effort.

4 P3 1 Summary AQA Science © Nelson Thornes Ltd 2006 4 What is the centre of mass of an object? The centre of mass of an object is the point where its mass may be thought to be concentrated. When a suspended object is in equilibrium, its centre of mass is directly beneath the point of suspension. The centre of mass of a symmetrical object is along the axis of symmetry.

5 P3 1 Summary AQA Science © Nelson Thornes Ltd 2006 5 What can you say about the moments of the forces acting on an object in equilibrium (it isn’t turning)? The sum of the anticlockwise moments about any point = the sum of the clockwise moments about that same point. Higher

6 P3 1 Summary AQA Science © Nelson Thornes Ltd 2006 6 Tilt or topple? An object will tend to topple over if the line of action of its weight is outside its base so … … bodies with a low centre of mass and a broad base are more stable than bodies with a high centre of mass and a narrow base. You can increase the stability of an object by making its base wider and its centre of mass as low as possible. Higher

7 P3 1 Summary AQA Science © Nelson Thornes Ltd 2006 7 How can a body moving at a steady speed be accelerating? When it’s moving in a circle at constant speed! The object accelerates continuously towards the centre of the circle. The centripetal force on it increases as: – the mass of the object increases, – the speed of the object increases, – the radius of the circle decreases.

8 P3 1 Summary AQA Science © Nelson Thornes Ltd 2006 8 What is the force of gravity? The Earth exerts a force of gravity on all of us – and we exert one on the Earth! The force of gravity between two objects: – is an attractive force, – is bigger the greater the mass of each object is, – is smaller the greater the distance between the two objects is. Digital Vision 7 (NT)

9 P3 1 Summary AQA Science © Nelson Thornes Ltd 2006 9 What keeps the Earth orbiting the Sun? The force of gravity provides the centripetal force needed to keep one smaller object in orbit around another larger object (e.g. the Earth around the Sun). To stay in orbit at a particular distance, a small body must move at a particular speed around a larger body. The larger the orbit is, the longer the orbiting body takes to go round it.

10 P3 1 Summary AQA Science © Nelson Thornes Ltd 2006 10 What is the period of the orbit of a satellite? The period of a satellite is the time it takes to make one complete orbit. The Moon is the Earth’s only natural satellite. A satellite in geostationary orbit (e.g. a communications satellite) has a period of 24 hours and stays at the same position above the equator. Monitoring satellites in low polar orbits have a period of 2–3 hours.


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