* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Misconceptions in Science about Forces and Energy These are
Dark energy wikipedia , lookup
Low-Income Home Energy Assistance Program wikipedia , lookup
Regenerative brake wikipedia , lookup
Zero-energy building wikipedia , lookup
World energy consumption wikipedia , lookup
Low-carbon economy wikipedia , lookup
Public schemes for energy efficient refurbishment wikipedia , lookup
Energy Charter Treaty wikipedia , lookup
Alternative energy wikipedia , lookup
International Energy Agency wikipedia , lookup
Energy returned on energy invested wikipedia , lookup
Internal energy wikipedia , lookup
Energy policy of Finland wikipedia , lookup
Energy in the United Kingdom wikipedia , lookup
Kinetic energy wikipedia , lookup
Energy efficiency in transport wikipedia , lookup
Negawatt power wikipedia , lookup
Potential energy wikipedia , lookup
Energy policy of the European Union wikipedia , lookup
Conservation of energy wikipedia , lookup
Energy applications of nanotechnology wikipedia , lookup
Energy efficiency in British housing wikipedia , lookup
Energy Independence and Security Act of 2007 wikipedia , lookup
Misconceptions in Science about Forces and Energy These are misconceptions that are assumed by many children of all ages and that are often perpetuated in common usage. Many are assumed to be correct because it is hard for children to decipher the unnecessary complications in the way the terms are miss-applied, often by what is generally thought of as authoritative sources such as magazines and the press. Teachers who have specialized in other curriculum areas are also liable to misinform unintentionally and this is why we should aim to keep concepts as straight forward as possible to avoid confusion. Here are two definitions. They are simple, accurate and can be expanded upon at later stages of learning. Energy Energy is the ‘go’ in things. All energy comes from the sun as the primary source and is then transferred through food chains and reactions. Energy is never lost, it is only transferred and dissipated. There are two forms of energy: potential (stored) and kinetic (action) Force There are two forces: push and pull All other forces are combinations i.e. twist, bend Names are applied to forces when they have a particular application such as gravity and centrifugal. These are still push or push forces Energy Misconceptions 1. Energy is a thing. This is a fuzzy notion, probably because of the way that we talk about newtonmeters or joules. It is difficult to imagine an amount of an abstraction. 2. The terms "energy" and "force" are interchangeable. 3. From the non-scientific point of view, "work" is synonymous with "labour". It is hard to convince someone that more work is probably being done playing football for one hour than studying an hour for a quiz. 4. An object at rest has no energy. 5. The only type of potential energy is gravitational. 6. Gravitational potential energy depends only on the height of an object. 7. Doubling the speed of a moving object doubles the kinetic energy. 8. Energy can be changed completely from one form to another (no energy losses). 9. Things "use up" energy. 10. Energy is confined to some particular origin, such as what we get from food or what the electric company sells. 11. Energy is truly lost in many energy transformations. 12. There is no relationship between matter and energy. 13. If energy is conserved, why are we running out of it? Forces and Motion 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. 17. 18. 19. 20. The only "natural" motion is for an object to be at rest. If an object is at rest, no forces are acting on the object. A rigid solid cannot be compressed or stretched. Only animate objects can exert a force. Thus, if an object is at rest on a table, no forces are acting upon it. Force is a property of an object. An object has force and when it runs out of force it stops moving. The motion of an object is always in the direction of the net force applied to the object. Large objects exert a greater force than small objects. A force is needed to keep an object moving with a constant speed. Friction always hinders motion. Thus, you always want to eliminate friction. Frictional forces are due to irregularities in surfaces moving past each other. Rocket propulsion is due to exhaust gases pushing on something behind the rocket. Time is defined in terms of its measurement. The location of an object can be described by stating its distance from a given point (ignoring direction). The terms distance and displacement are synonymous and may be used interchangeably. Thus the distance an object travels and its displacement are always the same. Velocity is another word for speed. An object's speed and velocity are always the same. Acceleration is confused with speed. Acceleration always means that an object is speeding up. Acceleration is always in a straight line. Acceleration always occurs in the same direction as an object is moving. If an object has a speed of zero (even instantaneously), it has no acceleration. Forces and Fluids 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. Objects float in water because they are lighter than water. Objects sink in water because they are heavier than water. Mass/volume/weight/heaviness/size/density may be perceived as equivalent. Wood floats and metal sinks. All objects containing air float. Liquids of high viscosity are also liquids with high density. Adhesion is the same as cohesion Heating air only makes it hotter. Pressure and force are synonymous. Pressure arises from moving fluids. Moving fluids contain higher pressure. Liquids rise in a straw because of "suction". Fluid pressure only acts downward.