Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Mechanisms - DOWNEND SCHOOL
Document related concepts
Friction-plate electromagnetic couplings wikipedia , lookup
Newton's laws of motion wikipedia , lookup
Rigid body dynamics wikipedia , lookup
Self-replicating machine wikipedia , lookup
Transmission (mechanics) wikipedia , lookup
Classical central-force problem wikipedia , lookup
Centripetal force wikipedia , lookup
Electric machine wikipedia , lookup
Dynamometer wikipedia , lookup
Differential (mechanical device) wikipedia , lookup
Transcript
Mechanisms These icons indicate that detailed teacher’s notes or useful web addresses are available in the Notes Page. This icon indicates the slide contains activities created in Flash. These activities are not editable. For more detailed instructions, see the Getting Started presentation. 1 of 15 © Boardworks Ltd 2004 Making our lives easier 2 The aim of technology is to improve life for people. Machines and mechanisms make it easier for us to move things. Mechanisms and machines are all around us. Look around the room that you are in at the moment. Identify an everyday machine or mechanism. How does this machine or mechanism make life easier? 2 of 15 © Boardworks Ltd 2004 The first machines 3 of 15 © Boardworks Ltd 2004 Early ‘wheels’ 4 of 15 © Boardworks Ltd 2004 From rollers to wheels No one knows for sure how the wheel was ‘invented’. Perhaps the idea ‘developed’ in stages. Trees cut down to make log rollers. Logs cut into short pieces – solid wheels. Solid wheels lightened by cutting out bits – spokes. Rubber tyres used to improve efficiency. 5 of 15 © Boardworks Ltd 2004 Military machines 6 of 15 © Boardworks Ltd 2004 Animal power From early times people have used animals to make life easier for themselves. Horse power was used to help lift loads. Can you think of any other examples of animal powered machines? 7 of 15 © Boardworks Ltd 2004 Levers in action Levers are very simple machines. If you look you will see examples of levers all around. How many other examples of levers can you think of? 8 of 15 © Boardworks Ltd 2004 Levers 9 of 15 © Boardworks Ltd 2004 Mechanical advantage Levers can be used to increase our strength. With a long lever, a small force can be used to raise a large load. This gives a mechanical advantage. Mechanical advantage (MA) = load effort Load = 50 N Effort = 10 N MA = 5 Effort = 10 newtons Load = 50 newtons 10 of 15 © Boardworks Ltd 2004 Velocity ratio Velocity ratio is used to compare the distances moved by load and effort. Here, in one second, the effort moves 1 metre and the load moves 4 metres. Because the applied force is greater than the load, the load moves faster (and further) than the effort. Velocity ratio = distance moved by effort distance moved by load 11 of 15 © Boardworks Ltd 2004 Torque The force that is used to undo a nut and bolt is a turning force. This turning force is called torque. The longer the handle on the spanner the easier it will be to undo the nut because the torque will be greater. Torque = force x distance. 12 of 15 © Boardworks Ltd 2004 Types of motion 13 of 15 © Boardworks Ltd 2004 Types of gears Gears used to change rotational motion through 90 degrees: bevel gears worm and wheel Gears used to change rotation into linear motion: rack and pinion 14 of 15 © Boardworks Ltd 2004 Inside the black box 15 of 15 © Boardworks Ltd 2004
