An introduction to exoplanets

The Open University via OpenLearn

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Details

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Provider

OpenLearn
Pricing

Free Certificate
Languages

English
Certificate

Certificate Available
Duration & workload

24 hours
Sessions

On-Demand
Level

Beginner

Found in

Astronomy Courses

Overview

This course aims to introduce learners to the fascinating world of exoplanets. By the end of the course, students will be able to identify planets and dwarf planets, understand the characteristics of stars and galaxies, and explore the scale of the Solar System. The course covers topics such as exoplanet names, transits, and how to measure an exoplanet's size and mass. The teaching method includes interactive activities, quizzes, and practical explorations. This course is intended for individuals interested in astronomy, planetary science, or space exploration.

Syllabus

Introduction and guidance
Introduction and guidance
Maths help
What is a badged course?
How to get a badge
Acknowledgements
Week1Week 1: Planets and the Solar System
Introduction
1 What is a planet?
1.1 Phases
1.2 Two characteristics of planets
1.3 Planets and dwarf planets
1.4 What defines a planet?
1.5 Other objects in the Solar System
2 Stars and galaxies
2.1 Exoplanets
2.2 The Milky Way and other galaxies
3 The sky
4 This week’s quiz
5 Summary of Week 1
Acknowledgements
Week2Week 2: Planets, large and small
Introduction
1 Terrestrial and giant planets
2 The scale of the Solar System: everything is big!
2.1 Sizes of the Solar System planets
2.2 Distances between the Solar System planets
2.3 The astronomical unit: a convenient way to measure distances in the Solar System
3 Gas giants and ice giants
4 Planet vital statistics
4.1 Planet sizes
4.2 Planet volumes
4.3 Scaling radii and volumes
4.4 Mass and density
4.5 Floating, sinking and planetary structure
4.6 Average densities
4.7 Densities of Solar System planets
5 Simplifying the numbers
6 Gallery of planet portraits
6.1 Terrestrial planets
6.2 Giant planets
7 This week’s quiz
8 Summary of Week 2
Acknowledgements
Week3Week 3: Dawn of the exoplanet era
Introduction
1 Exoplanet names
2 The first exoplanet: 51 Pegasi b
3 Wobbling stars
3.1 Gravity, orbits and see-saws
3.2 Getting a feel for the common centre of mass
Centre of mass interactive activity part 1
Centre of mass interactive activity part 2
3.3 The common centre of mass of our Solar System
3.4 Down to Earth: a practical exploration of planet and star orbits
3.5 Interactive orbits
4 Measuring the movement of stars
4.1 Velocity and speed
4.2 Light as a wave and the Doppler effect
4.3 Chemical fingerprints in starlight
4.4 Spectra, the Doppler effect and radial velocities
4.5 Interpreting the radial velocity curve
Interactive orbits
The orbital inclination
The star’s motion
Orbital motion and radial velocity
Radial velocity
4.6 DIY chemical fingerprints
5 The exoplanet collection
6 This week’s quiz
7 Summary of Week 3
Acknowledgements
Week4Week 4: You’re in my light – transits
Introduction
1 Transits in the Solar System
2 Size matters
2.1 Transits of Mercury and Venus
2.2 Transits of exoplanets
2.3 Stars, colour and size
2.4 Circles and spheres
2.5 Circles, radii and area
The equation for the area of a circle
Comparing areas for circles of differing size
2.6 Remember, stars are big!
3 Putting the ingredients together
3.1 Measuring a transit
3.2 An introduction to professional transit searches
3.3 From dips to planet size measurement
3.4 Do it yourself: planet size measurement
3.5 Planet size and transit depth
3.6 Star size and transit depth
4 This week’s quiz
5 Summary of Week 4
Acknowledgements
Week5Week 5: How to measure your exoplanet
Introduction
1 The first transiting planet – HD 209458 b
2 Hot Jupiter transits are easy to measure
2.1 HD 209458 b transit: discovered in a car park
2.2 WASP: Wide area search for planets
3 The names of transiting planets
4 How to measure an exoplanet’s size and mass
4.1 Transit depth gives size
4.2 Planet sizes with a pocket calculator
4.3 The radial velocity see-saw gives mass
4.4 Applying this to HD 209458 b
5 Transits from space
5.1 Continuous observations
5.2 Prevent the stars from twinkling
5.3 Small rocky planets
5.4 CoRoT and Kepler: into space for planets galore
5.5 Mass measurements for Kepler planets
5.6 The population of known transiting planets
6 Close-in planets
6.1 Close-in planets are easiest to find
6.2 Close-in planets are hot, hot, hot!
6.3 How hot?!
7 Density is key
8 This week’s quiz
9 Summary of Week 5
Acknowledgements
Week6Week 6: Planets galore: the contents of the Milky Way
Introduction
1 Learning about the whole Galaxy
2 How many planets?
2.1 Not all planets transit!
2.2 Selection effects – transits
2.3 How many are there really?
How it’s done
The Kepler results
Selection effects for the radial velocity method
3 The Milky Way variety pack
4 The light year
5 The habitable zone
5.1 The Goldilocks effect
5.2 The perfect distance depends on the star’s type
5.3 Why isn’t the Earth frozen?
5.4 Fighting climate change with paint
5.5 Lots of habitable planets!
6 Where are the aliens? The Drake equation
7 Kepler’s small planets
8 The search for Earth’s first cousins
8.1 The MEarth survey
8.2 TRAPPIST planets
8.3 Radial velocity searches for small worlds
8.4 Habitable planets around M dwarfs
9 This week’s quiz
10 Summary of Week 6
Acknowledgements
Week7Week 7: The Special Ones
Introduction
1 Spectra: how we learned what stars are made of
1.1 The electromagnetic spectrum
2 Atmospheres of planets and their climates
2.1 Why are atmospheres important?
2.2 The greenhouse effect
2.3 Atmospheres and transits
2.4 Being an atmosphere detective
3 Measurements and uncertainty: why great distances are bad news
4 Special planets
4.1 The hot ones: HD 189733 b, HD 209458 b and WASP-12 b
4.2 The small ones: GJ 1214 b and GJ 1132 b
4.3 The disintegrating one: Kepler-1520 b
4.4 The habitable ones? TRAPPIST-1 planets
5 This week’s quiz
6 Summary of Week 7
Acknowledgements
Week8Week 8: Where do we go from here?
Introduction
1 Welcome to the neighbourhood
2 The Pale Red Dot search: a planet around our closest neighbour?
2.1 Our closest stellar neighbour
2.2 Our closest exoplanetary neighbour!
2.3 Consequences of being so close to a star
2.4 But what is it really like?
2.5 Exploring the Galaxy’s rocky planets
2.6 Barnard’s Star b
2.7 LHS 1140 system
3 The history of rocky planet formation
3.1 Stars, planets and chemical elements
3.2 The Kepler-444 planetary system
4 Prospects for extraterrestrial life
4.1 Biosignatures
4.2 Life on strange worlds
5 The future of exoplanet exploration
5.1 Planet finders: Gaia, TESS and PLATO
The Gaia mission
The Transiting Exoplanet Survey Satellite – TESS
5.2 PLAnetary Transits and Oscillations of stars – the PLATO mission
5.3 Studying new worlds: JWST, Twinkle and ARIEL
5.4 Seeing exoplanets directly
6 This week’s quiz
7 Summary of Week 8
Take the next step
Tell us what you think
Acknowledgements