warm up problem frictionless ramp mass: 5 kg. angle of ramp: 30 degrees length of ramp: 20 meters v...
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![Page 1: Warm up problem Frictionless ramp Mass: 5 kg. Angle of ramp: 30 degrees Length of ramp: 20 meters V f = ?](https://reader030.vdocuments.us/reader030/viewer/2022032702/56649cb05503460f9497543f/html5/thumbnails/1.jpg)
Warm up problem
Frictionless ramp
Frictionless ramp
Mass: 5 kg.Angle of ramp: 30 degreesLength of ramp: 20 meters
Vf = ?
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Energy Energy andand
The Law of Conservation of Energy The Law of Conservation of Energy
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Energy
• Energy is the ability to change or cause change.
• If there is no energy, there can be no change.
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Most of our energy comes from the sun
• Light from the sun powers all plant growth
• Plants in turn feed all living organisms (either directly or indirectly)
• Plants also become our fossil fuels
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Potential and Kinetic Energy• Potential Energy– Energy of what might
happen– Has potential to cause
change– Ex. Compressing a
spring, a ball lifted above the floor (gravity), etc.
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Write these 4 scenarios down and predict which shows Potential or Kinetic Energy?1. A bow is drawn back.2. An arrow is shot from the bow.3. A boulder at rest at the top of a hill.4. A boulder rolling at the bottom of a hill.
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Which Have Potential or Kinetic Energy?
1. A bow is drawn back. PEPE2. An arrow is shot from the bow. KEKE3. A boulder at rest at the top of a hill. PEPE4. A boulder rolling at the bottom of a hill. KEKE
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How Much Energy?
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•What is the potential energy of a 2-kilogram potted plant that is on a 2.2 meter-high plant stand?
•What is the kinetic energy of a 3-kilogram ball that is rolling at 2 m/s?
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Potential vs Kinetic
• Potential Energy (Ep)– Increases when mass,
gravity or height increases.
– If the height doubles, Ep doubles
Kinetic Energy (Ek)— Increases when mass
increases— If the mass doubles, Ek
doubles— If the velocity
doubles, Ek quadruples (squared)
— What if velocity were tripled?
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The Law of Conservation of Energy
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• The total energy is the same at all points of an object’s path
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Law of Conservation of Energy
• Energy can never be created or destroyed.• Energy can be converted from one form into
another– Kinetic to potential– Potential to kinetic– Kinetic to heat (from friction)
Total Energybefore = Total Energyafter
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• A falling rock has a potential energy of 750 J and kinetic energy of 450 J. A few seconds later, it has a potential energy of 400 J. Determine its new kinetic energy.
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• A heavy weight that has a mass of 50 kg is lifted using a rope and pulley to a height of 8 meters above a wood post. The rope is cut and the weight falls to hit the post. What is the speed of the weight on impact?
Hint: List the Ep and Ek for each position of the weight.
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• A 2,000 kg car moving with a speed of 5 m/sec starts up a hill, and the accelerator and brakes are not working! How high does the car roll before it stops?
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• A 0.057 kg car starts from rest at the top of a 0.133-meter hill. Find the speed when it reaches the bottom of the hill.
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• A 500 kg roller coaster car starts from rest at the top of a 60-meter hill. Find the speed when it is halfway to the bottom.