Potential and Kinetic Energy
... Energy possessed by an object due to its motion or position (the objects combined potential and kinetic energy) ME=PE+KE ...
... Energy possessed by an object due to its motion or position (the objects combined potential and kinetic energy) ME=PE+KE ...
the law of conservation of energy
... • Bottom section of ramp must be horizontal • Photogate must be in the correct location: look at the DRAWING right now!!! • Do not use any steel marbles • Do not use the string to determine drop height (resolution counts and is required) • Instead, look at the picture for the car’s center: pg 41 mea ...
... • Bottom section of ramp must be horizontal • Photogate must be in the correct location: look at the DRAWING right now!!! • Do not use any steel marbles • Do not use the string to determine drop height (resolution counts and is required) • Instead, look at the picture for the car’s center: pg 41 mea ...
Forms of Energy
... Thermal Energy- (Heat Energy) Total kinetic energy contained in all the particles of a substance. Mechanical Energy- Energy an object has because of its motion or position. Chemical Energy- The energy stored in chemical bonds. Electrical Energy- The energy associated with electrical charges. Light E ...
... Thermal Energy- (Heat Energy) Total kinetic energy contained in all the particles of a substance. Mechanical Energy- Energy an object has because of its motion or position. Chemical Energy- The energy stored in chemical bonds. Electrical Energy- The energy associated with electrical charges. Light E ...
Kinetic and Potential Energy . ppt
... What’s so important about PE and KE? We call the sum of PE and KE mechanical energy. ME = KE + PE Mechanical energy is important because it is conserved (as long as there are no non conservative forces, like friction) Therefore, if one goes down, the other goes up by the same amount. ...
... What’s so important about PE and KE? We call the sum of PE and KE mechanical energy. ME = KE + PE Mechanical energy is important because it is conserved (as long as there are no non conservative forces, like friction) Therefore, if one goes down, the other goes up by the same amount. ...
Chapter 4 Powerpoint
... Heat is energy that flows from a hotter to a colder object. Temperature determines the direction of heat flow. Heat is a consequence of motion at the molecular level; temperature is a measure of the average speed of that motion. ...
... Heat is energy that flows from a hotter to a colder object. Temperature determines the direction of heat flow. Heat is a consequence of motion at the molecular level; temperature is a measure of the average speed of that motion. ...
Definitions: Thermal energy
... Our model of matter as composed of many small moving particles allows us to extend energy conservation to include resistive forces. The energy associated with the motion of a single object is coherent; all parts of the object move in the same way. The object has a net momentum associated with its ki ...
... Our model of matter as composed of many small moving particles allows us to extend energy conservation to include resistive forces. The energy associated with the motion of a single object is coherent; all parts of the object move in the same way. The object has a net momentum associated with its ki ...
Forms of Energy and its Changes - Notes
... If you rode in a vehicle, did the vehicle ever just shut down and stop for no reason? ...
... If you rode in a vehicle, did the vehicle ever just shut down and stop for no reason? ...
Unit III Energy
... 1. Kinetic Energy: KE = ½ m v2 The energy of motion. Anything that is moving has kinetic energy. Do these people have KE? ...
... 1. Kinetic Energy: KE = ½ m v2 The energy of motion. Anything that is moving has kinetic energy. Do these people have KE? ...
Types of Energy ANSWERS
... energy – energy stored in the nucleus of an atom; the energy that holds an atom together; sometimes called atomic energy example(s): uranium at a nuclear power plant; plutonium in a nuclear bomb ...
... energy – energy stored in the nucleus of an atom; the energy that holds an atom together; sometimes called atomic energy example(s): uranium at a nuclear power plant; plutonium in a nuclear bomb ...
Energy Curriculum Map
... Key Learning: SC.5.P.10.1 Investigate and describe some basic forms of energy, including light, heat, sound, electrical, chemical, and mechanical SC.5.P.10.2 Investigate and explain that energy has the ability to cause motion or create change. (The benchmark code is a link to the CPALMs resources av ...
... Key Learning: SC.5.P.10.1 Investigate and describe some basic forms of energy, including light, heat, sound, electrical, chemical, and mechanical SC.5.P.10.2 Investigate and explain that energy has the ability to cause motion or create change. (The benchmark code is a link to the CPALMs resources av ...
Energy - RidenourMHS
... - Total amount of kinetic energy - The more particles move, the more kinetic energy, which means the more thermal energy ...
... - Total amount of kinetic energy - The more particles move, the more kinetic energy, which means the more thermal energy ...
ENERGY power point
... nuclear power plants) or by combining atoms (known as fusion- happens in the sun and in nuclear bombs) Fusion Fission ...
... nuclear power plants) or by combining atoms (known as fusion- happens in the sun and in nuclear bombs) Fusion Fission ...
Name: KEY Class Period: GTT (7th) – SCIENCE OF TECHNOLOGY
... Name: KEY Class Period: GTT (7th) – SCIENCE OF TECHNOLOGY FINAL EXAM REVIEW ...
... Name: KEY Class Period: GTT (7th) – SCIENCE OF TECHNOLOGY FINAL EXAM REVIEW ...
Forms of Energy and Energy Conservation
... Energy is the ability to make things do work Energy has no mass and no volume Energy can be found in 7 different forms ...
... Energy is the ability to make things do work Energy has no mass and no volume Energy can be found in 7 different forms ...
Types and Forms of Energy
... Law of Conservation of Energy With every transformation, some energy is converted to less useful forms. Energy conversions are not 100% efficient. The energy output for the intended purpose is seldom the same as the energy we put in. Energy can neither be created nor destroyed; rather, it transforms ...
... Law of Conservation of Energy With every transformation, some energy is converted to less useful forms. Energy conversions are not 100% efficient. The energy output for the intended purpose is seldom the same as the energy we put in. Energy can neither be created nor destroyed; rather, it transforms ...
General
... This equation relates what two things (mass and energy) Einstein’s equation explains what two types of reactions (Fission and Fusion) In a frictionless environment the kinetic energy of a falling object will be _________ to the potential energy at the beginning of the fall. (Equal) The process of en ...
... This equation relates what two things (mass and energy) Einstein’s equation explains what two types of reactions (Fission and Fusion) In a frictionless environment the kinetic energy of a falling object will be _________ to the potential energy at the beginning of the fall. (Equal) The process of en ...
What are the six main forms of energy?
... – Energy and mass are equivalent and can be converted into one another. – 1 gram of matter turned entirely into energy = 90,000,000,000,000 J – 1 gram of explosive produces 2931 J This is because it is not entirely turned into energy, there is some matter ...
... – Energy and mass are equivalent and can be converted into one another. – 1 gram of matter turned entirely into energy = 90,000,000,000,000 J – 1 gram of explosive produces 2931 J This is because it is not entirely turned into energy, there is some matter ...
ENERGY
... • Energy cannot be created or destroyed; it only changes form • Energy in = energy out • Heat, light and sound are common forms of energy transfer ...
... • Energy cannot be created or destroyed; it only changes form • Energy in = energy out • Heat, light and sound are common forms of energy transfer ...
Friday PS 11-2 - elyceum-beta
... amount of energy transferred… • Wherever work is done, energy is transferred or transformed to another system • The units for work and energy are the same ...
... amount of energy transferred… • Wherever work is done, energy is transferred or transformed to another system • The units for work and energy are the same ...
Energy Terms and Concepts
... Or falling water can be used to turn a turbine, which motion can be used to make electricity ...
... Or falling water can be used to turn a turbine, which motion can be used to make electricity ...