Energy Contents: Definition Types Gravitational Potential Whiteboards Kinetic Whiteboards.

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Energy Contents: Definition Types Gravitational Potential Whiteboards Kinetic Whiteboards

Energy - The ability to do work. (humor) TOC Makes things “go” Neither created nor destroyed - moves around Mostly Nuclear

Types of Energy TOC Potential - Energy of position. Stored energy. Examples: Gravitational, chemical, springs, nuclear Kinetic - Energy of motion. Examples: Baseballs, trains, cars, flywheels, bullets, hammers Thermal - Random potential and kinetic energy of molecules and atoms. Examples: Hot stuff )))((( (( )) ( ) (( )) ( )

Gravitational Potential Energy TOC Lifting a box of mass m: W = Fd= energy given F = mg, d = h W = Fd = mgh m h PE = mgh PE - gravitational potential energy h - Height m - Mass g N/kg on Earth There are two ways to lift the object...

Whiteboards: Gravitational Potential Energy 11 | 2 | 323 TOC

6.0 J W PE = mgh,  h =.135 m PE = (4.5 kg)(9.8 N/kg)(.135 m) = 6.0 J What is the potential energy of a 4.5 kg bowling ball, 13.5 cm above the ground?

2.14 m W PE = mgh h = PE/(mg) = (1573 J)/(75 kg)/(9.80 N/kg) = 2.14 m Toby Continued lifts a 75.0 kg box doing 1573 J of work. What is the change in height of the box?

65 kg W PE = mgh m = PE/(gh) = (9555 J)/(9.8 N/kg)/(15 m) = 65 kg Colin Host lifts himself up 15 m doing 9555 J of work. What is his mass?

Kinetic Energy TOC Speeding up a box of mass m with force F W = Fd = energy given F = ma W = (ma)d v f 2 = v i 2 + 2ax, d = v 2 /(2a) (if v i = 0) W = (ma) ( v 2 /(2a) ) = mv 2 /2 = 1 / 2 mv 2 KE = 1 / 2 mv 2 m There are two ways to speed up the mass... d F v KE = 1 / 2 mv 2 KE - Kinetic energy v - velocity m - mass

Whiteboards: Kinetic Energy 11 | 2 | 323 TOC

1960 J W KE = 1 / 2 mv 2 = 1 / 2 (.0042 kg)(965 m/s) 2 = (1960 J) What is the kinetic energy of a 4.20 g bullet going 965 m/s?

20.29 g KE = 1 / 2 mv 2 m = 2 E k /v 2 = 2(2.055 J)/(14.23 m/s) 2 = … (20.29 g) A European swallow has J of kinetic energy when it is flying at m/s. What is its mass in grams ? W

11 m/s KE = 1 / 2 mv 2 v =  (2 KE/m) =  ( 2(34 J)/(.563 kg) ) = 11 m/s What speed must a.563 kg hammer move to store 34 J of energy? W