Different forms of energy have different uses.
... Forms of Energy Scientists classify energy into many forms, each of which causes change in a different way. Some of these forms are described below. Mechanical Energy The energy that moves objects is mechanical energy. The energy that you use to put a book on a shelf is mechanical energy, as is ener ...
... Forms of Energy Scientists classify energy into many forms, each of which causes change in a different way. Some of these forms are described below. Mechanical Energy The energy that moves objects is mechanical energy. The energy that you use to put a book on a shelf is mechanical energy, as is ener ...
6.P.3A.2 Notes
... Name ______________________________________________ Date __________________ Unit Test on 10/12/2016 14. The ball is _________________ and the ball swings back toward the other three balls (_________________ energy). 15. The moving ball _________________ the stationary ball and the kinetic energy is ...
... Name ______________________________________________ Date __________________ Unit Test on 10/12/2016 14. The ball is _________________ and the ball swings back toward the other three balls (_________________ energy). 15. The moving ball _________________ the stationary ball and the kinetic energy is ...
Gravitational Potential
... combustion, chemical bonds are broken and reformed (changing gasoline into byproducts such as water and carbon dioxide) releasing energy. An airplane motor, for example, uses this released energy to turn a propeller. There are many examples of chemical potential energy being converted to kinetic ene ...
... combustion, chemical bonds are broken and reformed (changing gasoline into byproducts such as water and carbon dioxide) releasing energy. An airplane motor, for example, uses this released energy to turn a propeller. There are many examples of chemical potential energy being converted to kinetic ene ...
Mechanical Energy
... The object that provides the force in order to do work (Remember: work equals force times distance) needs some source of energy. For example, if a person wants to do work on a set of dumbbell weights at the gym, then he/she needs to provide his/her body with food, which is chemical potential energy. ...
... The object that provides the force in order to do work (Remember: work equals force times distance) needs some source of energy. For example, if a person wants to do work on a set of dumbbell weights at the gym, then he/she needs to provide his/her body with food, which is chemical potential energy. ...
Lesson Plan 3 of 9
... The object that provides the force in order to do work (Remember: work equals force times distance) needs some source of energy. For example, if a person wants to do work on a set of dumbbell weights at the gym, then he/she needs to provide his/her body with food, which is chemical potential energy. ...
... The object that provides the force in order to do work (Remember: work equals force times distance) needs some source of energy. For example, if a person wants to do work on a set of dumbbell weights at the gym, then he/she needs to provide his/her body with food, which is chemical potential energy. ...
Electrical Energy
... windmill or a wind turbine. • A wind turbine changes the kinetic energy of the air into electrical energy by turning a generator. ...
... windmill or a wind turbine. • A wind turbine changes the kinetic energy of the air into electrical energy by turning a generator. ...
Potential and Kinetic Energy
... What does this really mean? • New concept: Law of Conservation of energy • Example Sentence: Definitions: ...
... What does this really mean? • New concept: Law of Conservation of energy • Example Sentence: Definitions: ...
Work Energy Part 2
... Now the work done by friction is more than the initial potential energy. In this case, the child will not slide all the way down the slide. The 735 J of potential energy is not enough to overcome all the friction needed to reach the end of the slide. ...
... Now the work done by friction is more than the initial potential energy. In this case, the child will not slide all the way down the slide. The 735 J of potential energy is not enough to overcome all the friction needed to reach the end of the slide. ...
Conservation of Energy
... Heat and work are the methods of transferring energy for a system in thermal equilibrium Q represents the net heat transfer—it is the sum of all heat transfers into and out of the system. Q is positive for net heat transfer into the system. W is the total work done on and by the system. W is positiv ...
... Heat and work are the methods of transferring energy for a system in thermal equilibrium Q represents the net heat transfer—it is the sum of all heat transfers into and out of the system. Q is positive for net heat transfer into the system. W is the total work done on and by the system. W is positiv ...