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Ch. 16 - Energy Essential Questions  What is Energy?  What are the 7 different forms of energy?  What are Kinetic Energy & Potential Energy?  How do.

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Presentation on theme: "Ch. 16 - Energy Essential Questions  What is Energy?  What are the 7 different forms of energy?  What are Kinetic Energy & Potential Energy?  How do."— Presentation transcript:

1 Ch. 16 - Energy Essential Questions  What is Energy?  What are the 7 different forms of energy?  What are Kinetic Energy & Potential Energy?  How do KE and PE convert into one another?  How do the forms of energy convert into one another?  What is the law of the Conservation of Energy?  How is energy related to the Physics subjects that we’ve studied already?

2 ENERGY motion of electric charges bonding of atoms or ions motion of objects internal motion of particles changes in the nucleus by splitting or fusing Def. The ability to do work. MECHANICAL ELECTROMAGNETIC CHEMICAL NUCLEAR THERMAL (heat) Measured in joules (J) LIGHT SOUND Part of electromagnetic energy, but radiation from the sun is in this category Sound waves transfer energy Section 1 – Forms of Energy

3 Section 2 – Kinetic & Potential Energy Kinetic Energy (KE)  energy in the form of motion  depends on mass and velocity 80 km/h 50 km/h 80 km/h 80 km/h truck 50 km/h motorcycle Which has the most KE? Which has the least KE?

4 Formula for Kinetic Energy Kinetic Energy KE = mass x velocity 2 2

5 Kinetic Energy Problem An object has 2 kg of mass and a velocity of 2.5 m/s. How much kinetic energy does it contain? GIVEN: m = 2 kg V = 2.5 m/s KE = ? WORK: KE = m x v 2 2 KE = 2 kg x (2.5 m/s) 2 2 KE = 6.25 J

6 Kinetic Energy Analysis Complete the following table. Which has the greater effect on the KE of an object – mass or velocity? WHY????? Object Mass (kg) Velocity (m/sec) KE (J) A11 B21 C12 D22

7 Section 2 – Kinetic & Potential Energy Potential Energy (PE)  stored energy  depends on position (gravitational) or configuration (shape) of an object Which boulder has greater gravitational PE? What other ways can an object store energy?

8 Examples of Potential Energy Gravitational Potential Energy Examples Potential Energy due to shape/configuration examples

9 Formula for Gravitational Potential Energy Gravitational Potential Energy (GPE) GPE = weight x height

10 Potential Energy Problem A person with a mass of 60 kg climbs up a 3 meter diving board. How much potential energy do they have? GIVEN: m = 60 kg h = 3 m GPE = ? What do we need to do FIRST??????? WORK: W = m x g W = 60 kg x 9.8 m/s 2 W = 588 N GPE = W x h GPE = 588 N x 3 m GPE = 1,764 J

11 Section 3 – Energy Conversions Energy Conversions  Changes in the forms of energy from one to another  All forms of energy can be converted to other forms.  One of the most common changes is PE to KE and KE to PE.  Other examples include: mechanical  thermal chemical  thermal

12 Section 3 – PE/KE Energy Conversions PE  KE can continuously convert back and forth into one another. Ex: at top of hill – max GPE, no KE At bottom of hill – max KE, no GPE

13 Section 3 – PE/KE Energy Conversions Label where KE of the marble is greatest and Zero. Label where PE of the marble is greatest and Zero.

14 Section 3 – PE/KE Energy Conversions

15 Section 3 – 7 Forms of Energy Conversions

16 Let’s trace the path of energy conversions on Page 406 of the text.

17 Section 4 - Conservation of Energy Law of Conservation of Energy  Energy may change forms, but it can neither be created nor destroyed by ordinary means (ways).  Energy just changes form from one to another.  Einstein discovered that mass can be converted into pure energy and vice-versa.

18 Section 4 - Conservation of Energy Formula for calculating energy Because the speed of light is such a huge number, theoretically, even a small mass may yield a tremendous amount of energy E = mass x speed of light 2 E = mc 2

19 Section 4 - Conservation of Energy How do we work with a number in scientific notation that is being squared? The formula is E = mc 2 This means E = mass x (3 x 10 8 ) 2 The 2 on the outside of the parentheses is distributed to everything within the parentheses! This becomes E = mass x (9 x 10 16 m 2 /s 2 ) Every time you use this formula!!!!!

20 Conservation of Energy Problem How much energy is found in a 5 kg pile of doggie poo poo? GIVEN: c = 3 x10 8 m/s m = 5 kg E = ? WORK: E = mc 2 E = (5 kg) x (3 x10 8 m/s) 2 E = (5 kg) x (9 x 10 16 m 2/ s 2 ) E = 45 x 10 16 J or 4.5 x 10 17 J

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