Presentation is loading. Please wait.

Presentation is loading. Please wait.

Welcome Investigators! Today: 1.Please turn in your “Don’t Lose Your Marbles” Lab packet, graph and written wrap-up if you haven’t already 2.Return Energy.

Published byAron Willis Modified over 7 years ago

Similar presentations

Presentation on theme: "Welcome Investigators! Today: 1.Please turn in your “Don’t Lose Your Marbles” Lab packet, graph and written wrap-up if you haven’t already 2.Return Energy."— Presentation transcript:

1 Welcome Investigators! Today: 1.Please turn in your “Don’t Lose Your Marbles” Lab packet, graph and written wrap-up if you haven’t already 2.Return Energy Quiz and other work 3.More Marbles! – Marbles and Ramps Lab

2 Some Adjustments to the lab sheet ______ marbleDistance moved by Styrofoam cup (cm) Drop height (cm)Trial 1Trial 2Trial 3Average 30 15 7.5 (choose) On one graph Graphing: A. The average distance moved by the cup (DV) and the drop height (IV) B. The average distance moved by the cup and the number of marbles

3 Marbles and Ramps Day 2 1.Complete your graph(s) – It is ok to put all your data on one graph, just use a different color for each number of marbles = one marble = two marbles = three marbles 2.Use your graphs to answer the questions on the lab sheet

4 So… If energy is the ability to do work or cause change – Q: What was the “work” we measured? – A: The distance the cup moved – How did the amount of work change as you added mass (added marbles)? – Were there any patterns to how the work changed? For example if you doubled the mass, did the work done double? – How did the amount of work change as you increased the drop height? – If you doubled the drop height what happened to the work done?

5 Calculating Kinetic Energy You saw that increasing the drop height increased the work done on the cup (which means the energy increased) What does changing the drop height do to the motion of the marble? So increasing the drop height increased the speed or velocity of the marble The work done on the cup is a way to think about the kinetic energy of the marbles

6 Repeat the procedure for one and two marbles but only for 30 cm and 7.5 cm – But this time remove the cup and put a piece of tape one meter away from the end of the ramp Measure the time it takes a marble to travel from the bottom of the ramp to the tape 1 meter

7 Use the time measurements To calculate velocity – v = distance = d/t time So if a marble rolls 1 meter in 5 seconds the velocity will be v = 1m/5s or v = 0.2 m/s

8 What happened… When you increased the drop height from 7.5 to 30 cm – What happened to the distance the cup moved? – What happened to the speed of the marble? Drop HeightCup moved (cm) (energy of marble) Speed (m/s) 7.5 cmXx 30 cm4X2x

9 Calculating Kinetic Energy We can actually calculate the kinetic energy! KE = ½ mv 2 m = mass in kilograms v = velocity in meters per second (m/s) We know the mass = 5.5 grams 5.5 g = 0.0055 kg So the kinetic energy of the marbles we tested was = ½ 0.0055 v 2

Download ppt "Welcome Investigators! Today: 1.Please turn in your “Don’t Lose Your Marbles” Lab packet, graph and written wrap-up if you haven’t already 2.Return Energy."

Similar presentations

Period 8 Station 3. Will the type of surface affect how far the object will push the note card?

Period 8 Station 3. Will the type of surface affect how far the object will push the note card?
Unit 7 Energy.  Energy is the ability to do work or cause change. I can work…but I won’t.

Unit 7 Energy.  Energy is the ability to do work or cause change. I can work…but I won’t.
What is energy? Kinetic Energy.

What is energy? Kinetic Energy.
Work, Potential Energy, Kinetic Energy & Power

Work, Potential Energy, Kinetic Energy & Power
Energy Kinetic and potential Energy can be classified as potential or kinetic Potential energy: energy of position Potential energy: energy of position.

Energy Kinetic and potential Energy can be classified as potential or kinetic Potential energy: energy of position Potential energy: energy of position.
Energy. A. Energy Definition The ability to do work.

Energy. A. Energy Definition The ability to do work.
1 Student Objective Explain how speed of an object relates to the energy of that object. To identify the 2 different forms of energy Warm Up WHY did the.

1 Student Objective Explain how speed of an object relates to the energy of that object. To identify the 2 different forms of energy Warm Up WHY did the.
Week #8 Quarter 2 (2/2/13- 12/6/13) (calendar site)(calendar site) Monday, 12/2 Have out: Energy Stamp Sheet “Find Someone Who…” Activity Activities/Assignments:

Week #8 Quarter 2 (2/2/13- 12/6/13) (calendar site)(calendar site) Monday, 12/2 Have out: Energy Stamp Sheet “Find Someone Who…” Activity Activities/Assignments:
Warm-up  How much force would be needed to move a dog that is 65kg at an acceleration of 2 m/s 2 ? (Find the weight!)  Find the Weight for the following:

Warm-up  How much force would be needed to move a dog that is 65kg at an acceleration of 2 m/s 2 ? (Find the weight!)  Find the Weight for the following:
a) The kinetic energy of the car. b) The distance it takes to stop.

a) The kinetic energy of the car. b) The distance it takes to stop.
Kinetic energy. Equations The kinetic energy of a moving object is one half of the product of its mass multiplied by the square of its velocity. or.

Kinetic energy. Equations The kinetic energy of a moving object is one half of the product of its mass multiplied by the square of its velocity. or.
Mechanical Work: More Practice. Gravitational Potential Energy: More Practice.

Mechanical Work: More Practice. Gravitational Potential Energy: More Practice.
Potential and Kinetic Energy

Potential and Kinetic Energy
Roller Coaster Lab.

Roller Coaster Lab.
TP We will identify the relationships between objects and kinetic and potential energy by completing a lab P4L a skydiver releases 1,700,000 Joules of.

TP We will identify the relationships between objects and kinetic and potential energy by completing a lab P4L a skydiver releases 1,700,000 Joules of.
Friday, March 19th Agenda Collect Conservation of Energy Worksheets

Friday, March 19th Agenda Collect Conservation of Energy Worksheets
Kinetic energy. Equations The kinetic energy of a moving object is one half of the product of its mass multiplied by the square of its velocity. or.

Kinetic energy. Equations The kinetic energy of a moving object is one half of the product of its mass multiplied by the square of its velocity. or.
Conversion Activity 8/22/13. Bellwork What is scientific notation? It is a way to write very large or very small numbers in a compact way.

Conversion Activity 8/22/13. Bellwork What is scientific notation? It is a way to write very large or very small numbers in a compact way.
Gravity on a Roll Gravity Rules! And Gravity Always Wins.

Gravity on a Roll Gravity Rules! And Gravity Always Wins.
Kinetic Energy A moving object has energy because of its motion. This energy is called kinetic energy.

Kinetic Energy A moving object has energy because of its motion. This energy is called kinetic energy.

Similar presentations

Ads by Google