Difference between revisions of "EAS 1601"

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[[Category:Courses|^EAS^EAS]]
   
 
'''EAS 1601''', or '''Habitable Planet''', is a 4-credit hour lab course introducing students to the field of astrobiology. The course is centered around the Drake equation, which is a mathematical model which tries to estimate the probability that intelligent life exists in our universe. Throughout the course, students explore each term of the Drake equation, including the rate of star formation, how astronomers find stars with planets, what kinds of planets are suitable for the formation of life, and the lifetime of intelligent, communicating civilizations.
 
'''EAS 1601''', or '''Habitable Planet''', is a 4-credit hour lab course introducing students to the field of astrobiology. The course is centered around the Drake equation, which is a mathematical model which tries to estimate the probability that intelligent life exists in our universe. Throughout the course, students explore each term of the Drake equation, including the rate of star formation, how astronomers find stars with planets, what kinds of planets are suitable for the formation of life, and the lifetime of intelligent, communicating civilizations.

Latest revision as of 20:16, 10 October 2022

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EAS 1601, or Habitable Planet, is a 4-credit hour lab course introducing students to the field of astrobiology. The course is centered around the Drake equation, which is a mathematical model which tries to estimate the probability that intelligent life exists in our universe. Throughout the course, students explore each term of the Drake equation, including the rate of star formation, how astronomers find stars with planets, what kinds of planets are suitable for the formation of life, and the lifetime of intelligent, communicating civilizations.

There are no pre-requisites for the course, and it can be used to fulfill part of a lab sequence for some majors.

Topic List[edit | edit source]

The following is a topic list from Dr. Frances Rivera-Hernandez's Fall 2022 section of the course.

Units Lecture Number Dates: Lecture: Lab:
Unit 1:

Building a Planetary System

Aug. 23rd: 1st day of classes

1 23 Aug (Tues) Intro: Science, Scales, & the Drake Equation NO LAB
2 25 Aug (Thurs) The Big Bang & First Atoms
3 30 Aug

(Tues)

Properties of Stars Lab 1 | Math/Science Starter
4 1 Sept

(Thurs)

Stellar Life Cycles | Post-lecture Session
5 6 Sept (Tues) Formation of the Elements Lab 2 | Universe to Stars
6 8 Sept (Thurs) Elements and Habitability | Post-lecture Session
7 13 Sept (Tues) Elements to Molecules

Discussion Assignment 1 Due

Lab 3 | Properties of Stars
8 15 Sept (Thurs) Planet Formation  | Post-lecture Session
9 20 Sept (Tues) Our Planetary System Lab 4 | Element & Planet Building
10 22 Sept (Thurs) Q&A Session for Exam 1 | Post-lecture Session
--- 27 Sept (Tues) Exam 1
Only ARGOS; NO LAB
Unit 2:

Establishing a Habitable Environment

Oct 18th: Fall Break

11 29 Sept (Thurs) Finding Extrasolar Worlds
12 4 Oct (Tues) Planet Composition Lab 5 | Planet Structure & Detecting Exoplanets
13 6 Oct (Thurs) Plate Tectonics  | Post-lecture Session
14 11 Oct (Tues) Planetary Atmospheres Lab 6 | Atmospheres
15 13 Oct (Thurs) Planetary Energy Balance  | Post-lecture Session
--- 18 Oct (Tues) Fall Break | NO CLASS Make up labs (Wed, Thurs)
16 20 Oct (Thurs) Planetary Thermostats  
17 25 Oct (Tues) Planetary Climates 1

Discussion Assignment 2 Due

Lab 7 | Energy Balance
18 27 Oct (Thurs) Planetary Climates 2  | Post-lecture Session
19 1 Nov (Tues) Q&A Session for Exam 2 Lab 8 | Earth's Thermostat
--- 3 Nov (Thurs) Exam 2
Unit 3:

Supporting Life and Intelligence

Dec. 7th & 8th: Reading Period

Dec. 8th-15th: Final Exams

20 8 Nov (Tues) Planetary Evolution Lab 9 | Habitability
21 10 Nov (Thurs) The Habitable Zone | Post-lecture Session
22 15 Nov (Tues) Life and Metabolism 1 Mission Proposal Project
23 17 Nov (Thurs) Life and Metabolism 2 | Post-lecture SessionUnits [w/links to recordings+slides]
24 22 Nov (Tues) Evolution and Extinction

Discussion Assignment 3 Due

Thanksgiving | No Lab
--- 24 Nov (Thurs) Thanksgiving Break | NO CLASS
25 29 Nov (Tues) Humans in a Planetary Context Mission Proposal Project
26 1 Dec (Thurs) Q&A Session for Final Exam | Post-lecture Session
--- 6 Dec (Tues) NO CLASS Make Up Labs (Mon, Tues, Wed)
--- Exam 3 (Final Exam):   Thursday, Dec. 8th @ 2:40-4:00 PM EDT (80 minutes)

Class Structure[edit | edit source]

The course is composed of two weekly lectures and one weekly lab. Students use the ARGOS platform to run simulations and complete weekly homework assignments.

Lab Structure[edit | edit source]

This information is accurate for Dr. Frances Rivera-Hernandez's Fall 2022 section.

A pre-lab assignment is given at the start of each week, to be completed asynchronously before Tuesday at noon.

During labs, students are given a set of problems and occasionally, science experiments to conduct with the assistance of the lab TA. These assignments are due by the end of the 2 hour and 45 minute long lab session. ARGOS lessons are part of the lab grade and are due by Sunday at midnight.

Prerequisite Knowledge[edit | edit source]

No prerequisite knowledge in astrobiology is expected. Students should be familiar with basic scientific principles including dimensional analysis and the scientific method. Coming in with existing knowledge on basic chemistry will be useful.