Kinetic Energy Theorem

Lab Five: Work energizing capacity Theorem: W = ? K.E. June 12, 2012 Data Table One: Work Kinetic postal code Theorem: W = ? K.E. T1| T2| V1| V2| KE1| KE2| W| 0.230 s| 0.091 s| .435 m/s| 1.11 m/s| .027 J| .240 J| 5.38 J| 0.237 s| 0.091 s| .422 m/s| 1.11 m/s| .026 J| .240 J| 5.39 J| 0.230 s| 0.091 s| .435 m/s| 1.11 m/s | .027 J| .240 J| 5.38 J| Calculations 1. V1 = d / t1 Length of the glider: 10 centimeters 10 centimeters = .1 meters .1 / 0.230 = .435 m/s 2. V2 = d / t2 Length of the glider: 10 centimeters 10 centimeters = .1 meters .1 / 0.091 = 1.11 m/s 3. KE1 = ½ MV2 The mass of the glider on a travel parallelism: 189.3 grams 100 grams added to the glider. Length of the glider: 10 centimeters ½ (100 g + 189.3 g / 1000) (.435)2 ½ (.289300) (.189225) .027371 J .027 J 4. KE2 = ½ MV2 The mass of the glider on a pan relief: 189.3 gr ams 200 grams added to the glider. Length of the glider: 10 centimeters ½ (200 g + 189.3 g / 1000) (1.11)2 ½ (.389300) (1.232100) .239828 J .240 J 5. W = ½ M (Vf 2 Vi2 ) ½ (189.

3) (.2402 - .0272) (94.650000)(.056871) 5.382840 J 5.38 J Questions 1. What force does the execution? Kinetic energy is the force that does the work. 2. What are the possible sources of computer error in this prove Some possible errors in experiment fin: students not setting the mode of the photogate to gate, not spell the air blower for the track to maximum power, nor memory board the do! se to release the glider for all(prenominal) different trials (same point for separately different trials). A car driving thirty miles per hour, a pitcher throwing a baseball ten miles per hour, an athlete campaign fifteen miles per hour, all three different situations are examples of energising energy. Kinetic energy is defined as the energy of motion, the...If you counter for to get a full essay, order it on our website: OrderEssay.net

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