Chapter 15: Energy
15.1 Energy and Its Forms
Energy &Work are closely related:
· Energy is the ability to do work. Energy is transferred by a force moving an object through a distance.
· Any object that has energy has the ability to created a force.
· Work: is a transfer of energy. When work is done on an object, energy is transferred to that object.
· Work is done by forces. Work is done on objects.
· Work in a physics problem means force times distance.
· The joule is the SI unit of work & energy.
· Energy is measured in joules, the same units as work. That is because energy is really stored work.
· If you push a box with a force of one Newton (N) for a distance of one meter (m), you have done exactly one joule of work.
· Energy can take many different forms and can always be measured in joules.
Kinetic & Potential Energy: 2 general types of energy.
· Kinetic energy: the energy of motion
· The kinetic energy of any moving object depends upon its mass & speed.
· Kinetic energy increases as the square of the speed. This means:
o If you go twice as fast, your energy increases by 4 times (22 = 4)
o If your speed is three times higher, you energy is 9 times bigger. (32 = 9)
· Kinetic energy increases with mass.
· Double the mass = double the KE.
· Kinetic energy increases with speed.
· Double the speed = quadruple the KE
? Why would tripling the speed at which a car is
moving have a greater effect on its kinetic energy
than tripling its mass?
· Potential Energy: energy that is stored, energy with the potential to do work.
· Potential energy comes from the position of an object relative to the Earth.
· Potential energy that depends upon an object’s height is called gravitational potential energy
o An object’s gravitational potential energy depends on its mass, its height, and the acceleration due to gravity.
o Elastic Potential Energy: the potential energy of an object that is stretched or compressed.
Forms of Energy: each of these forms of energy can be converted into other forms of energy.
· Mechanical Energy: the energy associated with the motion and position of everyday objects is mechanical energy.
· Thermal Energy: Heat, the particles that make up matter are always in random motion.
· Chemical Energy: the energy stored in the chemical bonds in compounds. When these bonds are broken, the release energy can do work. All chemical compounds store energy.
· Electrical: The energy associated with electric charges, these charges can exert forces that do work.
· Electromagnetic Energy: a form of energy that travels through space in the form of waves.
· Nuclear Energy: The nucleus of an atom is held together by strong and weak nuclear forces, which can store an enormous amount of potential energy.
o Fission: a process that releases energy by splitting nuclei apart.
o Fusion: release energy when less massive nuclei combine to form a more massive nucleus.
15.2 Energy Conversion & Conservation:
· Energy can be converted from one form to another.
· Energy conversion: the process of changing energy from one form to another
· When energy changes from one form to another, the total energy remains unchanged even though many energy conversions may occur.
· The work done by friction changes kinetic energy into thermal energy.
· The law of conservation of energy states that energy cannot be created or destroyed.
· The gravitational potential energy of an object is converted to the kinetic energy of motion as the object falls.
· When friction is small enough to be ignored, an object’s mechanical energy does not change. If you apply the law of conservation of energy to a process, you obtain an equation for the conservation of energy.