Laboratory #3 Newton s Third Law

Similar documents
LAB 6: GRAVITATIONAL AND PASSIVE FORCES

Chapter 4: Newton s Laws: Explaining Motion

LAB 6 - GRAVITATIONAL AND PASSIVE FORCES

A Determination of g, the Acceleration Due to Gravity, from Newton's Laws of Motion

Unit 2 Force and Motion

6. Block and Tackle* Block and tackle

General Physics Lab: Atwood s Machine

A Novel Way to Measure the Density of a Solid. By David Chandler, Porterville College. David@DavidChandler.com

Force, Work and Energy

Three Methods for Calculating the Buoyant Force Gleue: Physics

If you put the same book on a tilted surface the normal force will be less. The magnitude of the normal force will equal: N = W cos θ

Lessons 6 and 7 Foam Bridge Experiment- Forces and Stresses Lab

Kinetic Friction. Experiment #13

Pulleys, Work, and Energy

AP Physics Applying Forces

Newton s Second Law. ΣF = m a. (1) In this equation, ΣF is the sum of the forces acting on an object, m is the mass of

Torque and Rotary Motion

Ideal Cable. Linear Spring - 1. Cables, Springs and Pulleys

Two-Body System: Two Hanging Masses

The Force Table Vector Addition and Resolution

Conceptual Questions: Forces and Newton s Laws

5. Forces and Motion-I. Force is an interaction that causes the acceleration of a body. A vector quantity.

NEWTON S LAWS OF MOTION

Proving the Law of Conservation of Energy

Date R. Mirshahi. Forces are all around us. Without forces, nothing can move and no work can be done.

Lesson 29: Newton's Law of Universal Gravitation

Examples of Scalar and Vector Quantities 1. Candidates should be able to : QUANTITY VECTOR SCALAR

FRICTION, WORK, AND THE INCLINED PLANE

2 Newton s First Law of Motion Inertia

Forces. When an object is pushed or pulled, we say that a force is exerted on it.

Oscillations: Mass on a Spring and Pendulums

Laboratory Report Scoring and Cover Sheet

Newton s Laws of Motion

v v ax v a x a v a v = = = Since F = ma, it follows that a = F/m. The mass of the arrow is unchanged, and ( )

AP Physics C Fall Final Web Review

Lecture 6. Weight. Tension. Normal Force. Static Friction. Cutnell+Johnson: , second half of section 4.7

Ropes and Pulleys Investigations. Level A Investigations. Level B Investigations

Kinetic Friction. Experiment #13

3rd/4th Grade Science Unit: Forces and Motion. Melissa Gucker TE 804 Spring 2007

Student Exploration: Pulleys

PHY231 Section 2, Form A March 22, Which one of the following statements concerning kinetic energy is true?

Steps to Solving Newtons Laws Problems.

Name Class Period. F = G m 1 m 2 d 2. G =6.67 x Nm 2 /kg 2

Work, Energy and Power Practice Test 1

CHAPTER 6 WORK AND ENERGY

4 Gravity: A Force of Attraction

TEACHER ANSWER KEY November 12, Phys - Vectors

Pendulum Force and Centripetal Acceleration

B) 286 m C) 325 m D) 367 m Answer: B

Review Chapters 2, 3, 4, 5

Mass. ) or the slug (lb f s²/ft)

Prelab Exercises: Hooke's Law and the Behavior of Springs

Bottle Rockets. Vanderbilt Student Volunteers for Science. Fall 2008

Chapter 5 Using Newton s Laws: Friction, Circular Motion, Drag Forces. Copyright 2009 Pearson Education, Inc.

Newton s Laws. Physics 1425 lecture 6. Michael Fowler, UVa.

Experiment 9. The Pendulum

Physics 125 Practice Exam #3 Chapters 6-7 Professor Siegel

Worksheet #1 Free Body or Force diagrams

5.1 The First Law: The Law of Inertia

A) N > W B) N = W C) N < W. speed v. Answer: N = W

Work, Energy and Power

PHY231 Section 1, Form B March 22, 2012

WORKSHEET: KINETIC AND POTENTIAL ENERGY PROBLEMS

Physics: Principles and Applications, 6e Giancoli Chapter 4 Dynamics: Newton's Laws of Motion

MULTIPLE CHOICE. Choose the one alternative that best completes the statement or answers the question.

GENERAL SCIENCE LABORATORY 1110L Lab Experiment 5 THE SPRING CONSTANT

Experiment: Static and Kinetic Friction

Welcome to Physics 101 Basic Concepts of Physics. Instructor: Georgina Olivares Based on the book by Paul G. Hewitt:

Friction and Gravity. Friction. Section 2. The Causes of Friction

When showing forces on diagrams, it is important to show the directions in which they act as well as their magnitudes.

How can I improve my interviewing skills? MATERIALS

Review Vocabulary force: a push or a pull. Vocabulary Newton s third law of motion

force (mass)(acceleration) or F ma The unbalanced force is called the net force, or resultant of all the forces acting on the system.

circular motion & gravitation physics 111N

Experiment 4. Vector Addition: The Force Table

Balanced and Unbalanced Forces

Newton s Law of Universal Gravitation describes the attractive gravitational force that exists between any two bodies with the following equation:

Phonics. High Frequency Words P.008. Objective The student will read high frequency words.

Chapter 4. Forces and Newton s Laws of Motion. continued

Experiment 5 ~ Friction

CHAPTER 2 BLOCK AND TACKLE CHAPTER LEARNING OBJECTIVES

The Fruit of the Spirit is Love

Lecture 7 Force and Motion. Practice with Free-body Diagrams and Newton s Laws

Rotational Motion: Moment of Inertia

Buoyancy. What floats your boat?

F N A) 330 N 0.31 B) 310 N 0.33 C) 250 N 0.27 D) 290 N 0.30 E) 370 N 0.26

Name: Partners: Period: Coaster Option: 1. In the space below, make a sketch of your roller coaster.

Name Period WORKSHEET: KINETIC AND POTENTIAL ENERGY PROBLEMS. 1. Stored energy or energy due to position is known as energy.

Christa s Lost Lessons Simple Machines

PHYS 117- Exam I. Multiple Choice Identify the letter of the choice that best completes the statement or answers the question.

Name per due date mail box

B Answer: neither of these. Mass A is accelerating, so the net force on A must be non-zero Likewise for mass B.

Newton s Laws Force and Motion

Levers and Pulleys. 5 th Grade Science Investigation. Unit

AP1 Dynamics. Answer: (D) foot applies 200 newton force to nose; nose applies an equal force to the foot. Basic application of Newton s 3rd Law.

HOOKE S LAW AND OSCILLATIONS

Centripetal Force. This result is independent of the size of r. A full circle has 2π rad, and 360 deg = 2π rad.

Acceleration of Gravity Lab Basic Version

9. The kinetic energy of the moving object is (1) 5 J (3) 15 J (2) 10 J (4) 50 J

Rotational Inertia Demonstrator

Transcription:

Laboratory #3 Newton s Third Law Part A. Tug O War Concepts Newton s 3 rd law; Newton s 2 nd Law; Tension; Forces; Force of Gravity Introduction Have you ever noticed that when you play tug o war, the rope in the middle pulls in two directions? It pulls you toward your opponent and your opponent towards you. From this observation we can tell that tension (the force that makes the rope taut) always acts in 2 directions. Newton s 3 rd law says that forces always come in pairs (equal and opposite) and ropes always pull from both sides which means that whenever there is a rope involved, there are 4 forces that you have to keep track of: 1) you pull on the rope; 2) the rope pulls on you; 3) the rope pulls on your opponent; and 4) your opponent pulls on the rope. What a mess! This experiment will help clarify all these forces and how they interact. Necessary Equipment 2 threaded aluminum beams 2 aluminum beams 2 clamps 2 beam mount pulleys 2 mass hangers 6 100 gram masses 1 50 gram masses 3 spring scales 1 hanging pulley 1 spool of string 1 scissors Procedure Look at Figure A. Decide how much mass you are going to hang from the pulley. Predict the tension that the scale will read and record it on the chart. Set up the pulleys, scales and weights as shown in Figure A. 14

Answer Questions #1 & #2. Look at Figure B. Use the same mass you used in Figure A for each of these masses. Predict the tension that the scale will read and record it on the chart. Set up the pulleys, scales and weights as shown in Figure B. Answer Question #3 & #4. Look at Figure C. Decide how much mass you are going to hang. Predict the tension that the scale will read and record it on the chart. Set up the pulleys, scales and weights as shown in Figure C. NOTE: This system will move, so be quick while you read the scale! Answer Question #5. Look at Figure D. Decide how much mass you are going to hang. Predict the tension that each scale will read and record it on the chart. 15

Set up the pulleys, scales and weights as shown in Figure D. Answer Question #6. 16

Part B. Elevator Diet Concepts Newton s 3 rd Law; Support Force Introduction You ve heard of those fad diets that promise to eat nothing but meat for 6 weeks and lose 15 pounds. Of course they neglect to mention how it will negatively affect your body s metabolism and how fast you will gain it back. Today, you will watch the pounds drop off before your eyes, all done by simply riding an elevator. You ll love the look in your friends eyes when you tell them I lost 15 pounds this morning just by riding my elevator! The bad news is that you will gain all the lost weight back within 30 seconds. Procedure Stand on the scale and weigh yourself. Take the Parker Hall elevator to the top floor (3 R). Observe the places (there are 2 places) that your weight seems to change, and note which way it changes (gains weight or looses weight). Take the elevator to the first floor (1 F), while you are on the scale. Observe the places (there are 2 places) that your weight seems to change, and note which way it changes (gains weight or looses weight). If you missed it, do it again. 17

Lab Reporting Sheet Laboratory #3 Name: Date: Part A: Tug O War Set Mass Hung Predicted Tension Actual Tension Reading Up A 250g B 250g 250g C 350g 400g D 1. What is tension? 2. What force is causing this tension? How do we find that force? 3. What is the crazy thing about this set up? 4. What is the important lesson that you need to learn from this set up? 5. In general how could you find the tension in this set up? 6. The top scale probably read more than what you predicted, why would this be? 7. You should notice that the bottom scales have the same reading, why? 18

Part B: Elevator Diet Using the picture at the bottom of the following page, draw (and label) the force you exert on the scale, and the one that the scale acts on you. Does this pair of forces obey Newton s 3 rd Law? Using the pictures at the top of the following page, label the locations on the path of the elevator where the scale said you lost weight and where you gained weight. Define acceleration On the picture in the second question, label the places where the elevator is accelerating downward and the places where it is accelerating upward. Make sure your answers are correct with your instructor before moving on. What does the scale read--your Force of Gravity (which is commonly called weight and is mass times the acceleration of gravity on earth) or the support force? (NOTE: this is a multiple choice question!) In the locations where the support force is less than the force of gravity, what is the elevator doing? What does this have to do with Newton s 2 nd Law? In the locations where the support force is more than the force of gravity, what happens to you? What does this have to do the Newton s 2 nd Law? In the locations where the support force equals the force of gravity what happens to you? Is this consistent with Newton s 2 nd Law? Explain. 19

20

2026 © DocPlayer.net Privacy Policy | Terms of Service | Feedback  | Do Not Sell My Personal Information