Presentation is loading. Please wait.

Presentation is loading. Please wait.

Kinetic Energy Contents: Rest Energy /Moving energy.

Published byAdela Pitts Modified over 9 years ago

Similar presentations

Presentation on theme: "Kinetic Energy Contents: Rest Energy /Moving energy."— Presentation transcript:

1 Kinetic Energy Contents: Rest Energy /Moving energy

2 Kinetic Energy TOC Mass increase is energy Example: What is the kinetic energy of a 10.0 kg object going.60 c?

3 Dilated mass is 10.0/√(1-.6 2 ) = 12.5 kg So its mass has increased by 2.5 kg, this mass is energy. 2.5 kg represents (2.5 kg)(3.00E8 m/s) 2 = 2.25E17 J 12.5 kg 10.0 kg = rest mass 2.5 kg = energy mass What does this diagram look like for a 6.5 TeV proton? m o ≈ 1 GeV KE = 6,500 GeV

4 Kinetic Energy TOC Example – A 0.144 kg baseball has 2.0x10 15 J of kinetic energy. What is its mass, what is its velocity?

5 Well – the increase of mass is (2.0E15 J)/(3E8) 2 =.022222 kg so the new mass is 0.16622 kg and v = c √(1-small 2 /big 2 ) = c √(1-0.144 2 /0.16622 2 ) ≈.50c

6 Kinetic Energy TOC Example – An electron (rest mass 0.511 MeV) is accelerated through 0.155 MV, What is its velocity?

7 Example – An electron (rest mass 0.511 MeV) is accelerated through 0.155 MeV, What is its velocity? Well – the new mass is 0.511 + 0.155 = 0.666 MeV v = c √(1-small 2 /big 2 ) = c √(1-0.511 2 /0.666 2 ) =.64c

8 Whiteboards: Kinetic Energy 11 | 2 | 3 | 423 TOC

9 W 3.84 kg, 2.4E+17 J A 1.2 kg object (rest mass) is moving at 2.85x10 8 m/s. What is its new mass, and what is its kinetic energy? So the new mass is 1.2/√(1-(2.85E8) 2 /(3E8) 2 ) = 3.8431 kg So the “energy mass” is 3.8431 kg – 1.2 kg =2.6431 kg and that represents (2.6431 kg)(3E8) 2 = 2.4E+17 J

10 W.800 c What velocity must an electron have when it is accelerated through 340. kV? m o = 9.11E-31 kg = 0.511 MeV So the new mass is 0.511 MeV + 0.340 MeV = 0.851 MeV v = c √(1-small 2 /big 2 ) = c √(1-0.511 2 /0.851 2 ) = 0.799647258c about.800 c

11 W 2.97E+13 J,.32 c A 0.00612 kg (rest mass) bullet is going so fast it has a (dilated) mass of 0.00645 kg. What is its kinetic energy, and what is its velocity The increase in mass is 0.00645 kg - 0.00612 kg = 0.00033 kg and that represents ( 0.00033 kg )(3E8) 2 = 2.97E+13 J v = c √(1-small 2 /big 2 ) = c √(1-612 2 /645 2 ) = 0.315765657c about.32 c

12 W Your Mother The LHC will accelerate protons to about 7 TeV. If a proton has a rest mass of 938 MeV, what is the velocity of the protons in the LHC? So the new mass is 938 MeV + 7,000,000 MeV = 7,000,938 MeV v = c √(1-small 2 /big 2 ) = c √(1-(938) 2 /(7000938) 2 ) = 0.999999991c about 1 c

Download ppt "Kinetic Energy Contents: Rest Energy /Moving energy."

Similar presentations

Physics Energy. Law of Conservation of Energy energy cannot be created or destroyed only transferred from one form to another Electric  LightChemical.

Physics Energy. Law of Conservation of Energy energy cannot be created or destroyed only transferred from one form to another Electric  LightChemical.
What is energy? Kinetic Energy.

What is energy? Kinetic Energy.
Kinetic energy KEep moving!. Kinetic Energy  Kinetic comes from the Greek work ‘to move’  So Kinetic Energy is Moving energy  If we are talking about.

Kinetic energy KEep moving!. Kinetic Energy  Kinetic comes from the Greek work ‘to move’  So Kinetic Energy is Moving energy  If we are talking about.
Any moving object that has mass, has kinetic energy. = kinetic energy (J) m = mass (kg) v = speed (m/s) Kinetic energy is energy due to motion. The kinetic.

Any moving object that has mass, has kinetic energy. = kinetic energy (J) m = mass (kg) v = speed (m/s) Kinetic energy is energy due to motion. The kinetic.
Net Force Contents: What is the Net force Using Newton’s Second law with more than one forceUsing Newton’s Second law with more than one force Whiteboard.

Net Force Contents: What is the Net force Using Newton’s Second law with more than one forceUsing Newton’s Second law with more than one force Whiteboard.
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.
1 Measuring masses and momenta u Measuring charged particle momenta. u Momentum and Special Relativity. u Kinetic energy in a simple accelerator. u Total.

1 Measuring masses and momenta u Measuring charged particle momenta. u Momentum and Special Relativity. u Kinetic energy in a simple accelerator. u Total.
Potential and Kinetic Energy Problems

Potential and Kinetic Energy Problems
Kinetic Energy.

Kinetic Energy.
Nuclear notation and Binding energy Contents: Atomic notation Isotopes Whiteboard Binding Energy AMU Making an atom Calculating binding energy Whiteboards.

Nuclear notation and Binding energy Contents: Atomic notation Isotopes Whiteboard Binding Energy AMU Making an atom Calculating binding energy Whiteboards.
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.
Mass and Energy. Beta Factor  Relativity matters when speeds are close to that of light. v > 0.1cv > 0.1c v/c > 0.1 (less than 1% error)v/c > 0.1 (less.

Mass and Energy. Beta Factor  Relativity matters when speeds are close to that of light. v > 0.1cv > 0.1c v/c > 0.1 (less than 1% error)v/c > 0.1 (less.
Solving Energy problems.  A 0.1-kg baseball has 20 joules of kinetic energy as it passes over the plate. How fast is it moving?

Solving Energy problems.  A 0.1-kg baseball has 20 joules of kinetic energy as it passes over the plate. How fast is it moving?
1 Relativity H4: Some consequences of special relativity.

1 Relativity H4: Some consequences of special relativity.
Special Relativity Contents: The End of Physics Michelson Morley Postulates of Special Relativity Time Dilation.

Special Relativity Contents: The End of Physics Michelson Morley Postulates of Special Relativity Time Dilation.
Net Force Contents: What is the Net force Using Newton’s Second law with more than one forceUsing Newton’s Second law with more than one force Whiteboard.

Net Force Contents: What is the Net force Using Newton’s Second law with more than one forceUsing Newton’s Second law with more than one force Whiteboard.
Daily Agenda Ms. DeSalvo December 5, 2013. CPS Bell Ringer: 12/5/13 Activity: Energy Review 1.What is the unit for energy? 2.T or F? If an object has.

Daily Agenda Ms. DeSalvo December 5, CPS Bell Ringer: 12/5/13 Activity: Energy Review 1.What is the unit for energy? 2.T or F? If an object has.
Voltage and Electric Field

Voltage and Electric Field
Energy Contents: Definition Types Gravitational Potential Whiteboards Kinetic Whiteboards.

Energy Contents: Definition Types Gravitational Potential Whiteboards Kinetic Whiteboards.
Alpha Decay Contents: What it is Energy of radiation from mass defectEnergy of radiation from mass defect Whiteboard Why and how Tunneling.

Alpha Decay Contents: What it is Energy of radiation from mass defectEnergy of radiation from mass defect Whiteboard Why and how Tunneling.

Similar presentations

Ads by Google