Newton's Laws of Motion Part I.

Newton's Laws of Motion Part I

Class Expectations You can show respect by… You can be responsible by…
Listening when the teacher or others are talking. One speaker at a time, please raise your hand. Please no cross-room conservations during work time. You can be responsible by… Staying organized and avoiding distraction. Staying focused on task completion. You can make good choices by… Attending class regularly Doing your best and never giving up. Be Safe! First, last, and always. Copyright © 2010 Ryan P. Murphy

Remember! Staying together and helping each other get a great education ensures that we all get closer to reaching our hopes and dreams.

Activity! Bungee Jumping!

Activity! But we will use an egg.

Activity! and It’s not a real egg, it’s plastic.

Activity! …and instead of candy...

Activity! …and instead of candy...it’s washers

Demonstration of bungee jump gone wrong by teacher
Demonstration of bungee jump gone wrong by teacher. This is not what you want to happen to your plastic egg.

Paperclip to Hook on ceiling

String (You create length)

String (You create length) Elastic

String (You create length) 2 Washers Elastic

String (You create length) 2 Washers Elastic Egg

Large knot / tape ball works

Small notch for string needed. Large knot / tape ball works

Bungee Jumping Egg Available Worksheet

Demonstration of bungee jump gone wrong by teacher
Demonstration of bungee jump gone wrong by teacher. This is not what you want to happen to your plastic egg.

The five values that should be considered before determining the fate of the egg.
Height of the jump 2.75 m / 9 ft. Length of unstretched elastic band 80 cm / 2’8” Spring constant (How much the band stretches) Mass of the egg and washers Length of rope. Height of jump (h) minus the separation distance (d) between the egg and ground including the stretched elastic.

Height of the jump 2.75 m / 9 ft. Length of elastic band 80 cm / 2’8” ish. Spring constant (How much the band stretches) Mass of the egg and washers Length of rope. Height of jump (h) minus the separation distance (d) between the egg and ground including the stretched elastic.

Height of the jump 2.75 m / 9 ft. Length of elastic band 80 cm / 2’8” ish. Spring constant (How much the band stretches). Mass of the egg and washers Length of rope. Height of jump (h) minus the separation distance (d) between the egg and ground including the stretched elastic.

Constant: Changeless / unvarying in nature
The five values that should be considered before determining the fate of the egg. Height of the jump 2.75 m / 9 ft. Length of elastic band 80 cm / 2’8” ish. Spring constant (How much the band stretches). Mass of the egg and washers Length of rope. Height of jump (h) minus the separation distance (d) between the egg and ground including the stretched elastic. Constant: Changeless / unvarying in nature

Height of the jump 2.75 m / 9 ft. Length of elastic band 80 cm / 2’8” ish. Spring constant (How much the band stretches). Mass of the egg and washers. Length of rope. Height of jump (h) minus the separation distance (d) between the egg and ground including the stretched elastic.

Mass: Amount of matter in an object (Weight on Earth)
The five values that should be considered before determining the fate of the egg. Height of the jump 2.75 m / 9 ft. Length of elastic band 80 cm / 2’8” ish. Spring constant (How much the band stretches). Mass of the egg and washers. Length of rope. Height of jump (h) minus the separation distance (d) between the egg and ground including the stretched elastic. Mass: Amount of matter in an object (Weight on Earth)

Height of the jump 2.75 m / 9 ft. Length of elastic band 80 cm / 2’8” ish. Spring constant (How much the band stretches). Mass of the egg and washers. Length of string that you determine. Height of jump (h) minus the separation distance (d) between the egg and ground including the stretched elastic.

Follow up questions. What did you learn in this activity?
Please draw a quick sketch of a bungee jumping egg with a short description of something you learned next to it. If your egg cracked your picture must show this.

Activity! Bungee Jumping Egg Information
Law Conservation of Energy:

Law Conservation of Energy: Energy cannot be created or destroyed, only converted between one form and another.

Law Conservation of Energy: Energy cannot be created or destroyed, only converted between one form and another. The egg moves,

Law Conservation of Energy: Energy cannot be created or destroyed, only converted between one form and another. The egg moves, makes a sound,

Law Conservation of Energy: Energy cannot be created or destroyed, only converted between one form and another. The egg moves, makes a sound, must move air molecules,

Law Conservation of Energy: Energy cannot be created or destroyed, only converted between one form and another. The egg moves, makes a sound, must move air molecules, cracks,

Law Conservation of Energy: Energy cannot be created or destroyed, only converted between one form and another. The egg moves, makes a sound, must move air molecules, cracks, the washers move across the floor,

Law Conservation of Energy: Energy cannot be created or destroyed, only converted between one form and another. The egg moves, makes a sound, must move air molecules, cracks, the washers move across the floor, the string and elastic heat up,

Law Conservation of Energy: Energy cannot be created or destroyed, only converted between one form and another. The egg moves, makes a sound, must move air molecules, cracks, the washers move across the floor, the string and elastic heat up, stretch,

Law Conservation of Energy: Energy cannot be created or destroyed, only converted between one form and another. The egg moves, makes a sound, must move air molecules, cracks, the washers move across the floor, the string and elastic heat up, stretch, others?

During a bungee jump, the stored potential energy of the egg (PE = mgh) is converted into kinetic energy during the fall (KE = 1/2MV2).

During a bungee jump, the stored potential energy of the egg (PE = mgh) is converted into kinetic energy during the fall (KE = 1/2MV2). The kinetic energy is converted back to potential energy as the bungee cord stretches.

The Potential Energy of the Egg Potential Energy = PE = mgh PE is in Joules Mass of the Object (Kilograms) g = gravitational acceleration of the earth (9.8 m/sec2) Height above surface (Meters)

The Potential Energy of the Egg Potential Energy = PE = mgh (m)ass of the egg and washers + Elastic + String = .032kg (g) = (9.8 m/sec2) (h) Height = 2.75 Meters

The Potential Energy of the Egg Potential Energy = PE = mgh (m)ass of the egg and washers + Elastic + String = .032kg (g) = (9.8 m/sec2) (h) Height = 2.75 Meters m

The Potential Energy of the Egg Potential Energy = PE = mgh (m)ass of the egg and washers + Elastic + String = .032kg (g) = (9.8 m/sec2) (h) Height = 2.75 Meters m .032 Kg

The Potential Energy of the Egg Potential Energy = PE = mgh (m)ass of the egg and washers + Elastic + String = .032kg (g) = (9.8 m/sec2) (h) Height = 2.75 Meters m g .032 Kg

The Potential Energy of the Egg Potential Energy = PE = mgh (m)ass of the egg and washers + Elastic + String = .032kg (g) = (9.8 m/sec2) (h) Height = 2.75 Meters m g .032 Kg 9.8 m/sec2

The Potential Energy of the Egg Potential Energy = PE = mgh (m)ass of the egg and washers + Elastic + String = .032kg (g) = (9.8 m/sec2) (h) Height = 2.75 Meters m g h .032 Kg 9.8 m/sec2

The Potential Energy of the Egg Potential Energy = PE = mgh (m)ass of the egg and washers + Elastic + String = .032kg (g) = (9.8 m/sec2) (h) Height = 2.75 Meters m g h .032 Kg 9.8 m/sec M

The Potential Energy of the Egg Potential Energy = PE = mgh (m)ass of the egg and washers + Elastic + String = .032kg (g) = (9.8 m/sec2) (h) Height = 2.75 Meters m g h .032 Kg 9.8 m/sec M PE= .032 Kg 9.8m/sec M

The Potential Energy of the Egg Potential Energy = PE = mgh (m)ass of the egg and washers + Elastic + String = .032kg (g) = (9.8 m/sec2) (h) Height = 2.75 Meters m g h .032 Kg 9.8 m/sec M PE= .032 Kg 9.8m/sec M PE =

The Potential Energy of the Egg Potential Energy = PE = mgh (m)ass of the egg and washers + Elastic + String = .032kg (g) = (9.8 m/sec2) (h) Height = 2.75 Meters m g h .032 Kg 9.8 m/sec M PE= .032 Kg 9.8m/sec M PE = .86 Joules

Watch how this person changes directions and the energy involved.
What lesson can you learn from seeing the next slide.

Message:

Look before you cross the street!

Big Bang

All Energy Big Bang

Big Bang Particles join together

Big Bang Particles join together Gravity attracts particles, forms stars, planets

Big Bang Particles join together Gravity attracts particles, forms stars, planets Sun releases particles, photons

Nuclear Big Bang Particles join together
Gravity attracts particles, forms stars, planets Sun releases particles, photons

Big Bang Particles join together Gravity attracts particles, forms stars, planets Sun releases particles, photons Plants harness Photons to make sugars

Big Bang Particles join together Gravity attracts particles, forms stars, planets Sun releases particles, photons Plants harness Photons to make sugars Chemical Energy / Gunpowder (Potential)

Kinetic Energy (Bullet)
Big Bang Particles join together Gravity attracts particles, forms stars, planets Sun releases particles, photons Kinetic Energy (Bullet) Plants harness Photons to make sugars Chemical Energy / Gunpowder (Potential)

Big Bang Particles join together Gravity attracts particles, forms stars, planets Sun releases particles, photons Heat Kinetic Energy (Bullet) Plants harness Photons to make sugars Chemical Energy / Gunpowder (Potential)

Big Bang Particles join together Gravity attracts particles, forms stars, planets Sun releases particles, photons Sound Heat Kinetic Energy (Bullet) Plants harness Photons to make sugars Chemical Energy / Gunpowder (Potential)

Big Bang Particles join together Gravity attracts particles, forms stars, planets Sun releases particles, photons Sound Heat Light Kinetic Energy (Bullet) Plants harness Photons to make sugars Chemical Energy / Gunpowder (Potential)

E Sound Heat Light Kinetic Energy (Bullet) Big Bang
Particles join together Gravity attracts particles, forms stars, planets Sun releases particles, photons Sound Heat Light Kinetic Energy (Bullet) Plants harness Photons to make sugars Chemical Energy / Gunpowder (Potential)

Same Sound Heat Light Kinetic Energy (Bullet) Big Bang
Particles join together Gravity attracts particles, forms stars, planets Sun releases particles, photons Same Sound Heat Light Kinetic Energy (Bullet) Plants harness Photons to make sugars Chemical Energy / Gunpowder (Potential)

Newton's Laws of Motion Part I.

Similar presentations

Presentation on theme: "Newton's Laws of Motion Part I."— Presentation transcript:

Similar presentations

About project

Feedback

Log in

Auth with social network:

Newton's Laws of Motion Part I.

Similar presentations

Presentation on theme: "Newton's Laws of Motion Part I."— Presentation transcript:

Similar presentations

About project

Feedback