Presentation is loading. Please wait.

Presentation is loading. Please wait.

Potential Energy Notes Chapter 5-2. Potential energy is stored energy --the energy is not being used now but could be used in the future --2 types: gravitational.

Published bySydney Hill Modified over 8 years ago

Similar presentations

Presentation on theme: "Potential Energy Notes Chapter 5-2. Potential energy is stored energy --the energy is not being used now but could be used in the future --2 types: gravitational."— Presentation transcript:

1 Potential Energy Notes Chapter 5-2

2 Potential energy is stored energy --the energy is not being used now but could be used in the future --2 types: gravitational potential energy (PE g ) elastic potential energy (PE e )

3 Gravitational potential energy the energy an object has based on position – depends on its mass, gravity, and its height above a reference point – gravity is trying to pull the object back down to the earth Ex: apple on a tree, skier atop a hill, rock on cliff, etc.

4 Gravitational potential energy formula Potential energy = mass x gravity x height PEg = mgh (F x d where F = mg and d = h) --units of Joules (kg x m/s 2 x m) – Height is measured from a reference point Usually the ground or the surface beneath the object Can lead to a negative height – Ex. An object under water or below ground, any object below the reference point

5 Sample problems How much potential energy does a 55 g apple have hanging 3.5 meters high in a tree? A 55 kg skateboarder is at the top of a ramp with a slope of 35 degrees. The ramp is 5.5 m long. How much potential energy does the person have?

6 Elastic Potential Energy --the amount of energy in a stretched or compressed object --a stretched rubber band, a stretched spring, a compressed golf ball http://www.youtube.com/watch?v=2Y57pw_iWl k

7 the energy comes from the molecules wanting to return to their “normal” state – in stretching or compressing, the molecules get pushed closer to or pulled further from their neighboring molecules. – the energy comes from the attraction or repulsion of the molecules to return to their “relaxed” position

8 amount of energy is based on the strength of the spring or stretched object and the distance it is stretched the spring constant (k) measures the strength of the spring or elastic object – the stronger the spring, the higher the k value – the farther the spring or elastic object is stretched, the greater strain on the molecules  the more potential energy

9 Elastic potential energy formula potential energy = ½ x spring constant (k) x distance from relaxed state 2 PEe = ½ k x 2 --the spring constant has units of (N/m) so the units become (N/m) x m 2 which reduces to N x m or Joules (J)

10 Sample elastic potential problems A person jumping on a pogo stick compresses a spring with a spring constant of 9800 N/m a distance of 15 cm. How much energy is stored in the spring? A slingshot has a normal length of 26.0 cm. A person puts a marble in it and pulls it back to a length of 54.5 cm. The spring constant is 350 N/m. Find the energy of the rubber band.

Download ppt "Potential Energy Notes Chapter 5-2. Potential energy is stored energy --the energy is not being used now but could be used in the future --2 types: gravitational."

Similar presentations

Unit 5-2: Energy. Mechanical Energy When mechanical work is done, mechanical energy is put into or taken out of an object. Mechanical energy is a measurement.

Unit 5-2: Energy. Mechanical Energy When mechanical work is done, mechanical energy is put into or taken out of an object. Mechanical energy is a measurement.
Energy Chapter 5 Section 2. What is Energy? Energy – A scalar quantity that is often understood as the ability for a physical system to produce changes.

Energy Chapter 5 Section 2. What is Energy? Energy – A scalar quantity that is often understood as the ability for a physical system to produce changes.
Energy.

Energy.
THE NATURE OF ENERGY IPC Notes. ENERGY Energy is involved in every change that occurs Energy can be found in many different forms ex) thermal, electrical,

THE NATURE OF ENERGY IPC Notes. ENERGY Energy is involved in every change that occurs Energy can be found in many different forms ex) thermal, electrical,
Principles of Physics - Foederer. Energy is stored in a spring when work is done to compress or elongate it Compression or elongation= change in length.

Principles of Physics - Foederer. Energy is stored in a spring when work is done to compress or elongate it Compression or elongation= change in length.
Kinetic Energy Kinetic energy is energy of motion. Kinetic energy is a scalar quantity. KE = ½ mv 2 kinetic energy = ½ mass x (speed) 2 Units for KE are.

Kinetic Energy Kinetic energy is energy of motion. Kinetic energy is a scalar quantity. KE = ½ mv 2 kinetic energy = ½ mass x (speed) 2 Units for KE are.
It takes work to lift a mass against the pull (force) of gravity The force of gravity is m·g, where m is the mass, and g is the gravitational acceleration.

It takes work to lift a mass against the pull (force) of gravity The force of gravity is m·g, where m is the mass, and g is the gravitational acceleration.
Kinetic and Potential Energy Notes Chapter 5-2. Mechanical Kinetic Energy Amount of energy an object has based on motion Depends on the mass of the object.

Kinetic and Potential Energy Notes Chapter 5-2. Mechanical Kinetic Energy Amount of energy an object has based on motion Depends on the mass of the object.
Work, Energy, and Power Chapter 4. Work WORK = the use of force to move an object a certain distance. You do work ONLY when you exert a force on an object.

Work, Energy, and Power Chapter 4. Work WORK = the use of force to move an object a certain distance. You do work ONLY when you exert a force on an object.
ENERGY Part I.

ENERGY Part I.
Types of Energy Sections 6.3-6.5. What is energy? Energy is the ability to do work Like work, energy is measured in joules (J) What are some examples.

Types of Energy Sections What is energy? Energy is the ability to do work Like work, energy is measured in joules (J) What are some examples.
Physics Chapter 11 Energy.

Physics Chapter 11 Energy.
Energy and Conservation Physics Chapter 5-2 (p172-178) Chapter 5-3 (p179-183)

Energy and Conservation Physics Chapter 5-2 (p ) Chapter 5-3 (p )
Section 2: Kinetic Energy & Potential Energy Lockheed Martin completes final test flight of its hyper-velocity kinetic weapon.

Section 2: Kinetic Energy & Potential Energy Lockheed Martin completes final test flight of its hyper-velocity kinetic weapon.
ADV PHYSICS Chapter 5 Sections 2 and 4. Review  Work – force applied over a given distance W = F Δ x [W] = Joules, J  Assumes the force is constant.

ADV PHYSICS Chapter 5 Sections 2 and 4. Review  Work – force applied over a given distance W = F Δ x [W] = Joules, J  Assumes the force is constant.
Energy Chapter 5 Section 2.

Energy Chapter 5 Section 2.
Potential and Kinetic Energy. What is Energy  Energy –is the ability to do WORK!!!  Two types of energy –Potential Energy –Kinetic Energy.

Potential and Kinetic Energy. What is Energy  Energy –is the ability to do WORK!!!  Two types of energy –Potential Energy –Kinetic Energy.
Kinetic and Potential Energy. Potential Energy An object can have potential energy by virtue of its surroundings. Familiar examples of potential energy:

Kinetic and Potential Energy. Potential Energy An object can have potential energy by virtue of its surroundings. Familiar examples of potential energy:
Potential Energy. Potential Energy (PE) What is potential? Give me an example of when you have used the term Potential. What is potential? Give me an.

Potential Energy. Potential Energy (PE) What is potential? Give me an example of when you have used the term Potential. What is potential? Give me an.
Unit 07 “Work, Power, Energy and Energy Conservation” The Conservation of Mechanical Energy Kinetic and Potential Energy.

Unit 07 “Work, Power, Energy and Energy Conservation” The Conservation of Mechanical Energy Kinetic and Potential Energy.

Similar presentations

Ads by Google