A bike rider approaches a hill with a speed of 8.50 m/s. The total mass of the bike and rider is 85-kg a. Find the kinetic energy of the bike and rider. ッ7o.6 JV The rider coast up the hill. Assuming there is no friction; at what height will the bike come to a stop? KE -h 307026 mg (85)(9.8) 354 J c. Does your answer depend on the mass of the bike and rider? Explain.

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KE Ch bnuorg ode e moo1 Name: Period:poiw Date: woH Corrections Conservation of Energy tions: Read each of the following statements/questions. Answer them correctly and box your final answer. A large chuck of ice with mass 15.0-kg falls from a roof 8.00 m above the ground. a. Find the kinetic energy of the ice when it reaches the ground. Stooft bauomhElinte i o1olod taui oved los2 orli 2oob h=-8 9-9-8 b. What is the speed of the ice when it reaches the ground? 2aM4= 3ンて v? 2 KE ord to s2ed prli of svilslon 229220bo 5 Kg 2. A bike rider approaches a hill with a speed of 8.50 m/s. The total mass of the bike and rider is 85-kg VE 1 (1175J) ?KE y a. Find the kinetic energy of the bike and rider. 70.6 JV The rider coast up the hill. Assuming there is no friction; at what height will the bike come to a stop? KE -h mg 307026 354J (85)(9.8) c. Does your answer depend on the mass of the bike and rider? Explain. Yes 1/2 3. Tarzan, mass 85-kg, swings down from a tree limb on the end of a 20 m vine. His feet touch the ground 4.0 m below the limb. a. How fast is Tarzan moving when he reaches the ground? カニ85 イg 2X 9.8X4 V-8.87m/s . Does your answer depend on Tarzan's mass? velocitg is given by equoliond Poes your answer depend on the length of the vine? ve loci by is given by equalion Is, yhich is inder VoF Lengt h of from rest at the top of a 45.0 m hill; skies down a 30.0° incline into a valley, and contin Both hill heights are measured from the valley floor. Assume you can neglect frictio i poles. is the skier moving at the bottom of the valley? ier's speed at the top of the next hill?