Physics 107, Fall 20061 From last time Gravity and centripetal acceleration Used to explore interesting questions like what is at the center of the galaxy.

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Presentation transcript:

Physics 107, Fall From last time Gravity and centripetal acceleration Used to explore interesting questions like what is at the center of the galaxy HW#2:Due HW#3:Chapter 5: Conceptual: # 22 Problems: # 2, 4 Chapter 6: Conceptual: # 18 Problems: # 2, 5 Exam 1:Next Wednesday, Review Monday, Scantron with XX questions, bring #2 pencil Chapters 1 and Page, front only, equation sheet allowed

Physics 107, Fall What is the central mass? One star swings by the hole at a minimum distance b of 17 light hours (120 A.U. or close to three times the distance to Pluto) at speed v=5000 km/s, period 15 years. Mass Sun: 2x10 30, 3.4million solar mass black hole(approximate estimate) at the center of our Milky Way galaxy!

Physics 107, Fall Discussion so far… So far we have talked about –Velocity and Acceleration –Momentum and conservation of momentum –Momentum transfer changing the velocity of an object –That momentum transfer resulting from a force when the objects are in contact –Newton’s relation: Acceleration = Force / mass

Physics 107, Fall Something missing With these tools, can think about the world in many ways. –Collisions resulting in a momentum transfer –Gravitational forces resulting in acceleration of falling bodies and orbits of planets. But this leaves something out Think about firing a rifle: –Before pulling the trigger, both rifle and bullet are stationary: total momentum is zero. –After firing, the bullet and rifle move in opposite directions. Total momentum is still zero. –But clearly the situation before and after is different.

Physics 107, Fall Energy Both objects moving in final state. That movement represents energy. In addition to momentum, the energy is physical property of the system. We will see that it is also conserved. In the rifle - bullet example –Before firing, the energy is stored in the gunpowder. –After firing, most of the energy appears as the motion of the bullet and rifle –Some of the energy appears as heat.

Physics 107, Fall Before Energy Consider Work Work is done whenever a body is continually pushed or pulled through a distance. Twice as much work is done when the body is moved twice as far. Pushing twice as hard over the same distance does twice as much work. Work = Force x Distance

Physics 107, Fall Work, cont. Force has units of Newtons (N) Distance has units of meters (m) So work has units of N-m, defined as Joules (J). Example: The Earth does work on an apple when the apple falls. The force applied is the force of gravity Example: I do work on a box when I push it along the floor. The force applied is from my muscles

Physics 107, Fall Multi-part question I lift a body weighing 1 N upward at a constant vertical velocity of 0.1 m/s. The Net force on the body is A.1 N upward B.1 N down C.0 N Since the acceleration is zero, the net force must be zero.

Physics 107, Fall Question, cont. The force I exert on the body is A.1 N up B.1 N down C.0 Since net force is zero, and the gravitational force is 1 N down, I must be exerting 1 N up.

Physics 107, Fall Question, cont. After lifting the 1 N body a total distance of 1 m, the work I have done on the body is A.1 J B.0.1 J C.0 J Work = Force x Distance = 1 N x 1 m = 1 N-m = 1 Joule

Physics 107, Fall Question, cont. After lifting the 1 N body a total distance of 1 m, the Net work done on the body is A.1 J B.0.1 J C.0 J Work = Force Net x Distance = (1 N - 1 N) x 1 m = 0 Joule

Physics 107, Fall Energy A object’s energy is the amount of work it can do. Energy comes in many forms It can be converted into other forms without loss (i.e it is conserved) çKinetic Energy çGravitational Energy çElectrical Energy çThermal Energy çSolar Energy çChemical Energy çNuclear Energy

Physics 107, Fall Energy of motion In outer space, I apply a force of 1 N to a 1 kg rock for a distance of 1 m. I have done Force x Distance = (1 N)x(1 m) = 1 J of work. After applying the force for 1 m, the rock is moving at some final velocity v final as a result of the acceleration Force/mass. So the energy I expended in doing work has caused the body to change its velocity from zero to v final.

Physics 107, Fall Kinetic energy (energy of motion) Work = Force x Distance A constant applied force leads to an acceleration. After the distance is moved, the body is traveling at some final velocity v final. So the result of the work done is to change the body’s velocity from zero to v final

Physics 107, Fall Work-energy relation The acceleration of the body is related to the net force by F=ma is called Kinetic Energy, or energy of motion For a body initially at rest, constant accel. says

Physics 107, Fall Work-energy relation The kinetic energy of a body is The kinetic energy will change by an amount equal to the net work done on the body.

Physics 107, Fall A more general form If the object initially moving at some velocity v initial it has kinetic energy As the result of a net work W net, the velocity increases to v final, and the Kinetic Energy increases to The change in kinetic energy is equal to the net work done.

Physics 107, Fall Gravitational energy An object in a gravitational field can do work when it falls. We might say that energy is stored in the system.

Physics 107, Fall Ball falls down in gravity Ball initially held at rest. –v initial= =0 –Kinetic energy = 0 Ball released. Gravitational force = mg, falls with acceleration g Work done by gravitational force in falling distance h is Force x Distance = mgh. Ball final kinetic energy = mgh =

Physics 107, Fall Ball moved up in gravity Work done by me on ball –Ball initially held at rest by me. –I move the ball slowly upward a distance h. –Force applied by me is mg upward. –Work done by me on ball is Force x Distance = mgh Work done by gravity on ball –Force x Distance = -mgh Net (total) work done on ball = mgh-mgh = 0 Consistent with zero change in kinetic energy of ball during this time (I.e. ending velocity is same as starting velocity).

Physics 107, Fall Work Done by Gravity l Change in gravitational energy, Change in energy = mgh true for any path : h, is simply the height difference, y final - y initial l A falling object converts gravitational potential energy to its kinetic energy l Work needs to be done on an object to move it vertically up - work done is the same no matter what path is taken

Physics 107, Fall Electrical Energy Electricity is the flow of charged particles. Charged particles have an electromagnetic force between them similar to the gravitational force. This force can do work. Doing work against this force can store energy in the system. The energy can be removed at any time to do work.

Physics 107, Fall Thermal Energy Otherwise known as heat. The temperature of an object is related to the amount of energy stored in the object. The energy is stored by the microscopic vibratory motion of atoms in the material. This energy can be transferred from one object to another by contact. It can also be turned into work by contact.

Physics 107, Fall Storing energy Energy is neither created nor destroyed, but is just moved around. Or more accurately, it changes form. I do work by lifting a body against gravity. If the body now drops, it can do work when it hits (pounding in a nail, for instance). Could say that the work I did lifting the body is stored until the body hits the nail and pounds it in. Potential Energy