Since the laws of physics are the same in every reference frame, an object must have the same kinetic energy in all inertial reference frames. True False.

Slides:

Advertisements

Similar presentations

The Important Thing About By. The Important Thing About ******** The important thing about ***** is *****. It is true s/he can *****, *****, and *****.

Advertisements

Conservation of energy -Energy cannot be created or destroyed-

H6: Relativistic momentum and energy

Which graph(s) could correctly show the energy-momentum 4-vectors for a particle with the worldline shown? Or choose (e) more than one could be correct.

Lecture 20 Relativistic Effects Chapter Outline Relativity of Time Time Dilation Length Contraction Relativistic Momentum and Addition of Velocities.

Which of the following is a true statement? 1.Albert Einstein was born in Switzerland. 2.All of Albert Einstein’s teachers considered him to be the best-

©1997 by Eric Mazur Published by Pearson Prentice Hall Upper Saddle River, NJ ISBN No portion of the file may be distributed, transmitted.

E=mc 2 Physics 100 Chapt 19. Einstein’s hypotheses: 1. The laws of nature are equally valid in every inertial reference frame. 2. The speed of light in.

Lecture Two. Historical Background of Special Relativity.

True/False. False True Subject May Go Here True / False ? Type correct answer here. Type incorrect answer here.

Special Relativity. The Speed of Light 671 Million Miles per Hour.

The laws of physics are the same in any inertial (non- accelerating) frame of reference Galileo & Einstein would both agree (at terrestrial speeds.) F=ma.

Determine whether each curve below is the graph of a function of x. Select all answers that are graphs of functions of x:

1. Energy Transformations Most forms of energy can be transformed into other forms. Energy transformation: a change from one form of energy to another.

Relativistic Mechanics Relativistic Mass and Momentum.

Multiples 1 X 2 = 22 X 2 = 43 X 2 = 6 4 X 2 = 8 What do you call 2,4,6,8 ?Multiples of 2 Why?

The Theory of Special Relativity. Learning Objectives  Relativistic momentum: Why p ≠ mv as in Newtonian physics. Instead,  Energy of an object: Total.

The Law of Conservation of Energy Energy cannot be created or destroyed. E= m x C 2.

Implication of Mass Increase From GPS Ron Hatch Natural Philosophy Alliance June 5, 2000.

1 Special Theory of Relativity. 2 Introduction In 1905, Albert Einstein changed our perception of the world forever. He published the paper "On the Electrodynamics.

Momentum 动量. 50 km/hr Velocity by itself is not a good “measure of motion”.

Relativity Chapter 26. Background  Physics is concerned with describing nature based on observation and measurement.  Principle of Classical Relativity:

Einstein’s Special Relativity. Postulates 1. The speed of light is a universal constant 2. All laws are the same in any inertial reference frame.

 A scientific theory is an explanation of observations or events that is based on knowledge gained from many observations and investigations.

Review work and energy Physics. What is the law of conservation of energy? What does it mean for this unit?

Conservation of Energy What are all the different ways that $100 could be represented? Cash Checking account Travelers checks Change Gold and silver coins.

Ch.9, Sec.3 – Conservation of Energy Where Does the Energy Go? Where Does the Energy Go?  friction: a force that opposes motion between two surfaces that.

Chapter 28: Special Relativity

Energy Transformations and Conservation It’s the Law!

ENERGY Forms Transformations Thermal. FORMS OF ENERGY Essential Question: How can you tell the difference between potential and kinetic energy?

1© Manhattan Press (H.K.) Ltd. Inertial mass and its measurement Gravitational mass Gravitational mass 3.4 Inertial mass and gravitational mass.

Special Relativity Physics 102: Lecture 28 Make sure your grade book entries are correct.

Sections 2 and 3 Energy Conversions and Conservation of Energy

ENERGY Ability to do work or cause change. Potential Stored energy. Has the ability to move. It might move, it might not move.

Kinetic Theory of Matter 1.All matter is made up of molecules and atoms that are always in motion. 2.The higher the temperature, the faster the particles.

Conservation of Energy Energy and its Conservation

Energy Types Lesson 1. Energy Types  Write three sentences saying how you feel about your forces exam result I feel happy/ok/unhappy because... I felt.

Special Relativity Lecture 25 F2013 Lorentz transformations 1.

Conservation of Energy. The Law of Conservation of Energy: energy cannot be created or destroyed only transferred or transformed. The total amount of.

Chapter 1. The principle of relativity Section 1. Velocity of propagation of interaction.

BELLWORK Think about how you use energy in your everyday life. Make a list of at least ten ways that you use energy every day.

Rotational Energy Kinetic Energy ( E k ) - The ability to produce change due to an object’s motion. Linear Kinetic EnergyRotational Kinetic Energy.

< initial velocity of Object B > initial velocity of Object B

Energy Transformations

Chapter 5 Kinetics of many particles

قطار التعرج مجلس أبوظبي للتعليم منطقة العين التعليمية

مبررات إدخال الحاسوب في رياض الأطفال

Law Conservation of Mass and Balanced and Unbalanced Equations

Today’s Agenda… Get clickers before you sit down

Transformation of Energy.

Given that, {image} {image} Evaluate the limit: {image} Choose the correct answer from the following: {image}

8.2 Conservation of Energy

Ch.9, Sec.3 – Conservation of Energy

ماذا نعني بأن الطاقة كمية محفوظة؟!

Kinetic Theory of Matter

Relativistic Mass and Momentum

True or False: {image} is one-to-one function.

21twelveinteractive.com/ twitter.com/21twelveI/ facebook.com/21twelveinteractive/ linkedin.com/company/21twelve-interactive/ pinterest.com/21twelveinteractive/

Energy Transformations & Conservation

Spacetime Structure.

What is coming up due?.

Conservation of energy

Potential and Kinetic Energy

The Law of Conservation of Momentum

Energy Transformations and Conservation

Inequalities TRUE FALSE.

True or False True or False

Conservation of Energy

Presentation transcript:

Since the laws of physics are the same in every reference frame, an object must have the same kinetic energy in all inertial reference frames. True False 0 of 250 30

Since the laws of physics are the same in every inertial reference frame, an interaction between objects must be observed to conserve energy in all inertial reference frames. True False 0 of 250 30

Since the laws of physics are the same in every inertial reference frame, if you perform identical experiments in two different inertial reference frames, you should get exactly the same results. True False 0 of 250 30

Which of the worldlines cannot possibly be correct? t (sec) 4 B C 3 A 2 D 1 1 2 3 4 X (light-sec) 0 of 250 30