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Work and Energy. Work a force that causes a displacement of an object does work on the object W = Fd newtons times meters ( N·m ) or joules (J). Work is done only when the components of a force are parallel to a displacement.
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Work a force that causes a displacement of an object does work on the object W = Fdnewtons times meters (N·m) or joules (J)
Work is done only when the components of a force are parallel to a displacement
How much work is done on a boat trailer pulled 1.5 x 103 m by a force of 250 N?
If 1600 J of work is done on a box by a force of 65 N to the right, how far is the box pushed?
How much work is done on a box of books that is pulled 15.0 m by a force of 16.0 N at an angle of 22 degrees above the horizontal?
Work done to lift an object vertically W = Fdor W = mgh F = mass x acceleration of gravity d = height object is raised to
How much work is done on a 25 g book that is moved from the floor to the top of a 1.75 m bookcase?
Kinetic energy is the energy of an object due to its motion KE = ½mv2 joule (J)
A 7.00 kg bowling ball moves at 3.00 m/s. How much kinetic energy does the bowling ball have? How fast must a 2.45 g table-tennis ball move in order to have the same kinetic energy as the bowling ball?
A 500 g football has a kinetic energy of 170 J. What is the speed of the football?
Potential energy is stored energy the energy associated with an object due to the position of the object
Gravitational Potential Energy Peg= mgh
How much potential energy does a 15 kg object have if it is position at 25 m above the ground?
Elastic Potential Energy PEelastic= ½kx2 joules (J) k = spring constant (N/m) x = distance compressed or stretched
A bungee cord has a resting length of 15.0 m and spring constant of 71.8 N/m. What is the elastic potential energy in the cord if it is stretched to a length of 40.0 m?
Work-Energy Theorem the net work done on an object is equal to the change in the kinetic energy of the object Wnet= ΔKE net work = change in kinetic energy
Sample Problem 5C (pg 175) On a frozen pond, a person kicks a 10.0 kg sled, giving it an initial speed of 2.2 m/s. How far does the sled move if the coefficient of kinetic friction between the sled and the ice is 0.10?
A 10.0 kg crate is pulled up a rough incline with an initial speed of 1.5 m/s. The pulling force is 100.0 N parallel to the incline, which makes an angle of 15.0 degrees with the horizontal. Assuming the coefficient of kinetic friction is 0.40 and the crate is pulled a distance of 7.5 m. What is the speed of the crate after it is pulled 7.5 m?
Efficiency is a measure of how well energy changes or moves Efficiency = Workout/Workin E = Wout/Win
In the previous example problem, a person pulls a 100.0 kg crate up a ramp. What is the efficiency of this person?
The engine of a car provides a traction force of 2500 N while traveling a distance of a man pushes a shopping cart a distance of 12.8 m. If the friction force between the car and the road is a constant 1700 N, what is the efficiency of the car’s engine?
Conservation of Mechanical Energy MEi = MEf Initial mechanical energy = final mechanical energy (in the absence of friction)
Conservation of Mechanical Energy ME = KE + PE So ½ mvi2 + mghi = ½ mvf2 + mghf
Sample Problem 3E (pg 184) Starting from rest, a child zooms down a frictionless slide from an initial height of 3.00 m. What is her speed at the bottom of the slide? Assume she has a mass of 25.0 kg?
A bird is flying with a speed of 18.0 m/s over water when it accidently drops a 2.00 kg fish. If the altitude of the bird is 5.40 m and friction is disregarded, what is the speed of the fish when is hits the water?
Rate of Energy Transfer Power is the rate at which work is done or at which energy is transferred P = W/Δt or P = Fv
Sample Problem 5F (pg 188) A 193 kg curtain needs to be raised 7.5 m, at a constant speed, in as close to 5.0 s as possible. The power ratings for three motors are listed as 1.0 kW, 3.5 kW, and 5.5 kW. Which motor is best for the job?
A car with a mass of 1.5 x 103 kg starts from rest and accelerates to a speed of 18.0 m/s in 12.0 s. Assume that the force of resistance remains constant at 400.0 N during this time. What is the average power developed by the car’s engine?