Gravity: What s the big attraction? Dan Wilkins Institute of Astronomy

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Edward Harvey
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1 Gravity: What s the big attraction? Dan Wilkins Institute of Astronomy

2 Overview What is gravity? Newton and Einstein What does gravity do? Extreme gravity The true power of gravity Getting things moving gravitational waves

3 What is Gravity? Attractive force between all bodies with mass

4 Newton Universal Law of Gravitation F = GMm r 2

5 Gravity is a Weak Force! Protons in nucleus of an atom Strong Force Attraction 10,000 N Electrostatic Repulsion 100 N Gravitational Attraction 1x10-34 N Gravity weaker than electric forces by 1,000,000,000,000,000,000,000,000,000,000,000,000x

6 But...

7 But... Negative and positive charges Opposites attract and cancel out Large scales no net charge

8 But... Negative and positive charges Opposites attract and cancel out Large scales no net charge No negative mass Gravity remains on large scales

9 The Earth is Massive! 6x10 24 kg

10 Structure in the Universe Gravity is responsible for all large-scale structures Planets Stars Solar System

11 Structure in the Universe Gravity is responsible for all large-scale structures Galaxies Clusters

12 Einstein General Relativity R µν 1 2 g µνr = 8πG c 4 T µν

13 Motion Free particles move in straight lines

14 Motion Free particles move in straight lines Forces cause them to deviate

15 Geodesics Shortest path between 2 points Flat space straight lines Free particles follow geodesics Sphere (great) circles

16 Curved Space Matter curves space around it

17 Gravity from Curved Space Free particles follow the geodesics Gravitational force towards object

18 Schwarzschild Spacetime around a non-spinning point mass On the Russian front in World War I

19 Rotating Masses Drag spacetime around with them

20 Gravitational Lensing Curved space Light bends around massive object

21 Gravitational Lensing

22 Spacetime Space and time are the same thing y Can move through space and time Physics decides your speed through time x

23 Spacetime Space and time are the same thing t Can move through space and time Physics decides your speed through time x

24 Time Dilation Matter warps spacetime In stronger gravitational fields, time elapses more slowly

25 Gravitational Redshift

26 Gravitational Redshift Light is a wave

27 Gravitational Redshift Light is a wave Time dilation

28 Gravitational Redshift Light is a wave Time dilation Emitter near mass

29 Gravitational Redshift Light is a wave Time dilation Emitter near mass Clock slower

30 Gravitational Redshift Light is a wave Time dilation Emitter near mass Clock slower Lower frequency

31 Black Holes Extreme density Extreme curvature Horizon Close enough, even light can t escape

32 The Power of Gravity

33 Nuclear Fusion

34 Nuclear Fusion

35 Gravity Makes it Easy! Stars Gravity pulls gas together High temperature High pressure

36 The Death of Stars Gravity balanced by gas pressure Fuel runs out, star cools and collapses Releases more energy

37 Accretion Matter falling (spiralling) onto object Releases energy as it falls in

38 Efficiency E = mc 2

39 Efficiency E = mc 2

40 Efficiency E = mc 2 Chemistry Nuclear Nuclear Accretion Fission Fusion ε = 10-7 ε = 0.01% ε = 0.1% ε ~ 40%

41 Active Galactic Nuclei Supermassive black hole at centre of galaxy 10 8 solar masses Matter accreting

42 Energy Emission

43 Energy Emission Thermal emission as disc warms up

44 Energy Emission Thermal emission as disc warms up Magnetic fields accelerate particles Inverse Compton (Xrays) Synchrotron emission (radio waves)

45 Energy Emission Thermal emission as disc warms up Magnetic fields accelerate particles Inverse Compton (Xrays) Synchrotron emission (radio waves)

46 Jets and Bubbles Energy released into magnetic fields Accelerate particles to 99.9% speed of light Jets Inflate bubbles in surrounding gas

47 Gravitational Waves Matter warps spacetime Movement causes ripples Waves in spacetime Tell us about what s moving?

48 Gravitational Waves Cause tiny movements 2 neutron stars in orbit cause movement 1 part in at Earth Difficult to detect Large laser interferometers to try to detect

49 Conclusions Gravity is an attraction between massive objects Responsible for structure in Universe Gravity as spacetime curvature Black holes extreme gravity The most efficient way of releasing energy Gravitational waves new science!

50 Thank you Any questions?

Special Relativity. Principles of Special Relativity: 1. The laws of physics are the same for all inertial observers.

Special Relativity. Principles of Special Relativity: 1. The laws of physics are the same for all inertial observers. Black Holes Special Relativity Principles of Special Relativity: 1. The laws of physics are the same for all inertial observers. 2. The speed of light is the same for all inertial observers regardless