martin d. weinberg umass astronomy...
TRANSCRIPT
![Page 1: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/1.jpg)
Lec 01 09/04/12 – slide 1
A100–Exploring the Universe: Introduction
Martin D. Weinberg
UMass Astronomy
September 4, 2012
![Page 2: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/2.jpg)
Overview
⊲ Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Lec 01 09/04/12 – slide 2
What is Astronomy?
⊲ Story of our understanding of the Universe
⊲ By the end of the course, we will have traveled
through the solar system, the Galaxy, clusters of
galaxies to the beginning of the Universe.
![Page 3: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/3.jpg)
Overview
⊲ Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Lec 01 09/04/12 – slide 2
What is Astronomy?
⊲ Story of our understanding of the Universe
⊲ By the end of the course, we will have traveled
through the solar system, the Galaxy, clusters of
galaxies to the beginning of the Universe.
Objectives
⊲ Organization of the Universe
⊲ Principal components that create this organization
⊲ Scientific method: how we try overcome human
perceptual limitations to figure this out
![Page 4: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/4.jpg)
Earth in the Universe
Overview
⊲ Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Lec 01 09/04/12 – slide 3
![Page 5: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/5.jpg)
Earth in the Universe
Overview
⊲ Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Lec 01 09/04/12 – slide 3
104 km
![Page 6: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/6.jpg)
Earth in the Universe
Overview
⊲ Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Lec 01 09/04/12 – slide 3
104 km
1010 km
![Page 7: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/7.jpg)
Earth in the Universe
Overview
⊲ Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Lec 01 09/04/12 – slide 3
104 km
1010 km
1018 km
![Page 8: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/8.jpg)
Earth in the Universe
Overview
⊲ Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Lec 01 09/04/12 – slide 3
104 km
1010 km
1018 km
3× 1019 km
![Page 9: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/9.jpg)
Earth in the Universe
Overview
⊲ Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Lec 01 09/04/12 – slide 3
104 km
1010 km
1018 km
3× 1019 km
1021 km
![Page 10: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/10.jpg)
Scale of the Universe
Overview
Earth in context
⊲Scale of theUniverse
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Lec 01 09/04/12 – slide 4
Sun = basketball
Earth = marble at a few hundred feet
Nearest star = about 10000 miles away (Tokyo)
Center of the Milky Way = 10000 times the nearest star
or 100,000,000 miles away
Nearest Galaxy = 1000 times distance to center of Milky
Way 100,000,000,000 miles away
![Page 11: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/11.jpg)
Human Biases
Overview
Earth in context
Scale of the Universe
⊲ Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Lec 01 09/04/12 – slide 5
Human biases
Cosmic length scales—very large compared to human
sizen
Cosmic time scales—very long compared to human
lifetime
Cosmic events at many wavelengths—humans have
limited sensitivity to the electromagnetic spectrum
![Page 12: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/12.jpg)
Looking into the past
Overview
Earth in context
Scale of the Universe
Human Biases
⊲ Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Lec 01 09/04/12 – slide 6
What was the Universe like in the past?
Destination Light travel time
Moon 1 second
Sun 8 minutes
Sirius 8 years
Andromeda Galaxy 2.5 million years
![Page 13: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/13.jpg)
Looking into the past
Overview
Earth in context
Scale of the Universe
Human Biases
⊲ Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Lec 01 09/04/12 – slide 6
What was the Universe like in the past?
Destination Light travel time
Moon 1 second
Sun 8 minutes
Sirius 8 years
Andromeda Galaxy 2.5 million years
Observing at large distances is looking back in time!!
![Page 14: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/14.jpg)
Looking into the past
Overview
Earth in context
Scale of the Universe
Human Biases
⊲ Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Lec 01 09/04/12 – slide 6
What was the Universe like in the past?
Destination Light travel time
Moon 1 second
Sun 8 minutes
Sirius 8 years
Andromeda Galaxy 2.5 million years
This is known as the “Space-time continuum”
![Page 15: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/15.jpg)
The Light-Year
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
⊲ The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Lec 01 09/04/12 – slide 7
The distance light can travel in one year
About 10 trillion km (6 trillion miles)
![Page 16: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/16.jpg)
The Light-Year
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
⊲ The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Lec 01 09/04/12 – slide 7
The distance light can travel in one year
About 10 trillion km (6 trillion miles)
At great distances we see objects as they were when the
Universe was much younger
![Page 17: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/17.jpg)
The Light-Year
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
⊲ The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Lec 01 09/04/12 – slide 7
The distance light can travel in one year
About 10 trillion km (6 trillion miles)
At great distances we see objects as they were when the
Universe was much younger
![Page 18: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/18.jpg)
The Light-Year
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
⊲ The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Lec 01 09/04/12 – slide 7
The distance light can travel in one year
About 10 trillion km (6 trillion miles)
At great distances we see objects as they were when the
Universe was much younger
Question: can we see the entire Universe?
![Page 19: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/19.jpg)
The Course
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
⊲ The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Lec 01 09/04/12 – slide 8
Three encompassing topics
⊲ Motions, Light and Gravity
⊲ Stars
⊲ Galaxies & Cosmology
![Page 20: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/20.jpg)
The Course
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
⊲ The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Lec 01 09/04/12 – slide 8
Three encompassing topics
⊲ Motions, Light and Gravity
⊲ Stars
⊲ Galaxies & Cosmology
Text book: The Cosmic Perspective: Stars, Galaxies and
Cosmology, 6e, by Bennett et al.
![Page 21: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/21.jpg)
The Course
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
⊲ The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Lec 01 09/04/12 – slide 8
Three encompassing topics
⊲ Motions, Light and Gravity
⊲ Stars
⊲ Galaxies & Cosmology
Text book: The Cosmic Perspective: Stars, Galaxies and
Cosmology, 6e, by Bennett et al.
Attendance is optional, but you are responsible for topics
covered in class whether you attend or not.
![Page 22: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/22.jpg)
The Course
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
⊲ The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Lec 01 09/04/12 – slide 8
Three encompassing topics
⊲ Motions, Light and Gravity
⊲ Stars
⊲ Galaxies & Cosmology
Text book: The Cosmic Perspective: Stars, Galaxies and
Cosmology, 6e, by Bennett et al.
Attendance is optional, but you are responsible for topics
covered in class whether you attend or not.
My role is to help you understand. Please ask questions!!
![Page 23: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/23.jpg)
The Course
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
⊲ The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Lec 01 09/04/12 – slide 8
Three encompassing topics
⊲ Motions, Light and Gravity
⊲ Stars
⊲ Galaxies & Cosmology
Text book: The Cosmic Perspective: Stars, Galaxies and
Cosmology, 6e, by Bennett et al.
Attendance is optional, but you are responsible for topics
covered in class whether you attend or not.
My role is to help you understand. Please ask questions!!
Web site:
http://www.astro.umass.edu/~weinberg/a100
![Page 24: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/24.jpg)
Requirements
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
⊲ Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Read: Chap 1 09/04/12 – slide 9
Reading: Assignments in the text for each class will be
given in preceding class and are required. The relevant
chapters are also listed in the Syllabus by subject.
⊲ You should expect to spend about 3 hours out of
class for every one hour of class time.
⊲ Effort = Final Grade
![Page 25: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/25.jpg)
Requirements
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
⊲ Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Read: Chap 1 09/04/12 – slide 10
Exams: Three in-class one-hour exams and a final exam.
Of the four, I will drop you lowest score. The exams will
be multiple choice.
The exam dates are in the syllabus. They will only
change if the University is closed (e.g. snow day). In that
case, the exam will be held at the next class meeting.
Please bring a #2 pencil to each exam!
![Page 26: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/26.jpg)
A100 structure: lecture + lab
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
⊲ A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Read: Chap 1 09/04/12 – slide 11
A100: four credits with a lab
⊲ The lecture counts for 75% of your total grade
⊲ The lab counts for 25% of your total grade
Your lecture grade:
score =Your points
Total points× 100
Your course grade:
score = Lecture grade × 0.75 + Lab grade × 0.25
![Page 27: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/27.jpg)
Lab info
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
⊲ A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Read: Chap 1 09/04/12 – slide 12
Tom Burbine runs the labs, not me . . .
The first lab meeting for the Wednesday lab will be this
Wed. (5th) from 4:40PM - 5:30PM in Hasbrouck 20
The first lab meeting for the Monday lab will be next
Mon. (10th) from 4:40PM - 5:30PM in Hasbrouck 20
After the orientation meeting, labs will be scheduled
every other week
Most of the assignments will be submitted on the Lab’s
Spark page
Here is the website for the lab:
http://blogs.umass.edu/astron100-tburbine/
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Policies
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
⊲ Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Read: Chap 1 09/04/12 – slide 13
Makeup exam policy: Following the University
guidelines, makeup exams will be given only for
documented medical or family emergencies or by prior
arrangement.
Homework: There will be (roughly) weekly homework
assignments worth 25% of the total lecture score.
We will using www.masteringastronomy.com, an online
assignment system.
![Page 29: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/29.jpg)
Policies
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
⊲ Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Read: Chap 1 09/04/12 – slide 14
Extra credit: At the end of each class, you may pass in a
sheet of paper with your name, UMass ID and
1. Brief description of an idea or topic from the day
that you found particular interesting
2. Your top question from the day’s class
1/2 credit for each. Over the entire semester, this is
worth up to 5% to your final score.
Some of the homework assignments will have additional
questions that count for extra credit.
There are no other forms of extra credit.
![Page 30: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/30.jpg)
Grades
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
⊲ Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Read: Chap 1 09/04/12 – slide 15
Grades will be assigned on a modified straight scale.
Scores will be adjusted upward if the exam is too hard.
92.5% A
90% A-
87.5% B+
82.5% B
80% B-
77.5% C+
72.5% C
70% C
67.5% D+
60% D
3 exams 37.5%
Online homework 18.75%
In-class feedback 3.75%
Lab score 25%
Academic Honesty is expected of all scientists, and also
of all students of science.
![Page 31: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/31.jpg)
MasteringAstronomy
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
⊲ MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Read: Chap 1 09/04/12 – slide 16
Interactive, online homework and study system (see your
handout)
You must register using the access packet that comes
with your textbook
![Page 32: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/32.jpg)
Registering for MasteringAstronomy™
www.masteringastronomy.com
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Go to www.masteringastronomy.com
Click Students
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Click Introduction to MasteringAstronomyto learn how to use the program.
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MasteringAstronomy
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
⊲ MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Read: Chap 1 09/04/12 – slide 16
Interactive, online homework and study system (see your
handout)
You must register using the access packet that comes
with your textbook
![Page 55: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/55.jpg)
MasteringAstronomy: grading
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
⊲ MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Read: Chap 1 09/04/12 – slide 17
The assignments untimed. You may stop in the middle,
go back later, etc.
The system offers you hints, if you want them. Not using
hints is worth 2% bonus credit.
If you give an incorrect response, in many cases, you will
get some extra help from the system and you can try
again. However, every time you answer incorrectly, you
lose 20% of the available credit for that problem.
Assignments submitted before the due date, of course,
get full credit. For every day an assignment is late, you
lose 7%. So after one week, you will have lost 50%.
Assignments that are more than two weeks late receive
no credit.
![Page 56: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/56.jpg)
Scientific Notation
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
⊲ScientificNotation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Read: Chap 1 09/04/12 – slide 18
104 km
1010 km
1018 km
3× 1019 km
1021 km
![Page 57: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/57.jpg)
Scientific Notation
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
⊲ScientificNotation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Read: Chap 1 09/04/12 – slide 19
The numbers encountered in this class are astronomical:
The nearest star is 41,000,000,000,000 kilometers away
The mass of the sun is
2,000,000,000,000,000,000,000,000,000,000,000 grams
Scientists have devised a more compact notation for dealing
with such numbers called scientific notation.
![Page 58: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/58.jpg)
Scientific Notation
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
⊲ScientificNotation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Read: Chap 1 09/04/12 – slide 20
41,000,000,000,000 kilometers
2,000,000,000,000,000,000,000,000,000,000,000 grams
There are really only two important parts to each of the
numbers:
1. The leading digits – which establish the precision of the
number itself
2. The number of digits – which sets the size or magnitude
of the number
In Scientific notation:
4.1×1013 and 2.0×1033
![Page 59: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/59.jpg)
Scientific Notation
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
⊲ScientificNotation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Read: Chap 1 09/04/12 – slide 21
The “×” is, as it appears, a multiplication:
102 = 10 × 10 = 100
103 = 10 × 10 × 10 = 1,000
104 = 10 × 10 × 10 × 10 = 10,000
105 = 10 × 10 × 10 × 10 × 10 = 100,000
106 = 10 × 10 × 10 × 10 × 10 × 10 = 1,000,000
so 4.5×104 = 4.5 × 10 × 10 × 10 × 10 = 45,000.
![Page 60: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/60.jpg)
Scientific Notation
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
⊲ScientificNotation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Read: Chap 1 09/04/12 – slide 22
Counting zeros and moving the decimal place is a convenient
way of carrying out the multiplication by powers of ten
Example:
Want: 103 × 105
103 × 105 = 10× 10× 10 × 10× 10× 10× 10× 10 = 108
The result of that long string of multiplication is that we add
the exponents of the 10’s: 3+5=8
![Page 61: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/61.jpg)
Scientific Notation
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
⊲ScientificNotation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Read: Chap 1 09/04/12 – slide 23
Addition a bit more tricky:
103+105 = 10×10×10 + 10×10×10×10×10 = 1.01×105
![Page 62: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/62.jpg)
Scientific Notation
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
⊲ScientificNotation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Read: Chap 1 09/04/12 – slide 23
Addition a bit more tricky:
103+105 = 10×10×10 + 10×10×10×10×10 = 1.01×105
or
1, 000 + 100, 000 = 101, 000 = 1.01× 105
![Page 63: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/63.jpg)
Scientific Notation
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
⊲ScientificNotation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Read: Chap 1 09/04/12 – slide 23
Addition a bit more tricky:
103+105 = 10×10×10 + 10×10×10×10×10 = 1.01×105
or
1, 000 + 100, 000 = 101, 000 = 1.01× 105
or
0.01× 105 + 1.0× 105 = 1.01× 105
Rule: add the prefix (mantissa) when power of ten (exponent)
for the addends is the same
![Page 64: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/64.jpg)
Light-year in km
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
⊲ Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Read: Chap 1 09/04/12 – slide 24
1 light-year = (speed of light)× (1 year)
= 300, 000km
s×
365days
1 year×
24hr
1day×
60min
1hour×
60 s
1min
![Page 65: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/65.jpg)
Light-year in km
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
⊲ Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Read: Chap 1 09/04/12 – slide 24
1 light-year = (speed of light)× (1 year)
= 300, 000km
✁s×
365✟✟✟days
1✘✘✘year×
24✚✚hr
1✚✚day
×
60✟✟✟min
1✘✘✘hour×
60 ✁s
1✟✟✟min
![Page 66: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/66.jpg)
Light-year in km
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
⊲ Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Read: Chap 1 09/04/12 – slide 24
1 light-year = (speed of light)× (1 year)
= 300, 000km
✁s×
365✟✟✟days
1✘✘✘year×
24✚✚hr
1✚✚day
×
60✟✟✟min
1✘✘✘hour×
60 ✁s
1✟✟✟min= 9, 460, 000, 000, 000 km
![Page 67: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/67.jpg)
Light-year in km
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
⊲ Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Read: Chap 1 09/04/12 – slide 24
1 light-year = (speed of light)× (1 year)
= 300, 000km
✁s×
365✟✟✟days
1✘✘✘year×
24✚✚hr
1✚✚day
×
60✟✟✟min
1✘✘✘hour×
60 ✁s
1✟✟✟min= 9, 460, 000, 000, 000 km
= 9.46× 1012 km
![Page 68: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/68.jpg)
Light-year in km
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
⊲ Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Read: Chap 1 09/04/12 – slide 24
1 light-year = (speed of light)× (1 year)
= 300, 000km
✁s×
365✟✟✟days
1✘✘✘year×
24✚✚hr
1✚✚day
×
60✟✟✟min
1✘✘✘hour×
60 ✁s
1✟✟✟min= 9, 460, 000, 000, 000 km
= 9.46× 1012 km
≈ 1013 km
![Page 69: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/69.jpg)
Metric Prefixes
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
⊲ Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Read: Chap 1 09/04/12 – slide 25
10−15 femto-
10−12 pico-
10−9 nano-
10−6 micro-
10−3 milli-
10−2 centi-
10−1 deci-
10 deka-
102 hecto-
103 kilo-
106 mega-
109 giga-
1012 tera-
1015 peta-
![Page 70: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/70.jpg)
Measuring distance
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
⊲Measuringdistance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Read: Chap 1 09/04/12 – slide 26
Distance in meters (m)
![Page 71: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/71.jpg)
Energy Output
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
⊲ Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Read: Chap 1 09/04/12 – slide 27
Energy Source Total Energy (J)
Big Bang 1068
Radio galaxy 1055
Supernova 1046
Sunlight (1 y) 1034
Volcanic explosion 1019
H-bomb 1017
Thunderstorm 1015
Lightning flash 1010
Baseball pitch 102
Typing (per key) 10−2
Flea hop 10−7
![Page 72: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/72.jpg)
Local motions
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
⊲ Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Read: Chap 1 09/04/12 – slide 28
Earth rotates: speed = 0.5 km/s = 1,700 km/hour =
1,000 miles/hour
![Page 73: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/73.jpg)
Local motions
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
⊲ Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Read: Chap 1 09/04/12 – slide 28
Earth rotates: speed = 0.5 km/s = 1,700 km/hour =
1,000 miles/hour
Earth orbital speed (solar system) = 30 km/s = 170,000
km/hour = 67,000 miles/hour miles/hour
![Page 74: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/74.jpg)
Local motions
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
⊲ Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
Time scales
Read: Chap 1 09/04/12 – slide 28
Earth rotates: speed = 0.5 km/s = 1,700 km/hour =
1,000 miles/hour
Earth orbital speed (solar system) = 30 km/s = 170,000
km/hour = 67,000 miles/hour miles/hour
Sun’s orbital speed (Galaxy) = 200 km/s = 450,000
miles/hour
![Page 75: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/75.jpg)
Motions in the galaxy
Read: Chap 1 09/04/12 – slide 29
![Page 76: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/76.jpg)
Dark Matter
Read: Chap 1 09/04/12 – slide 30
![Page 77: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/77.jpg)
Expanding Universe
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
⊲ExpandingUniverse
Motions summary
Origin of theelements
Time scales
Read: Chap 1 09/04/12 – slide 31
Discovery by Edwin Hubble in 1929
All galaxies outside of our Local Group are moving away
from us
The more distant the galaxy, the faster it is moving
Nothing special about our location in the Universe
![Page 78: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/78.jpg)
Expanding Universe
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
⊲ExpandingUniverse
Motions summary
Origin of theelements
Time scales
Read: Chap 1 09/04/12 – slide 31
Discovery by Edwin Hubble in 1929
All galaxies outside of our Local Group are moving away
from us
The more distant the galaxy, the faster it is moving
Nothing special about our location in the Universe
Conclusion: We live in an expanding Universe!
![Page 79: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/79.jpg)
Expanding Universe
Read: Chap 1 09/04/12 – slide 32
![Page 80: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/80.jpg)
Motions summary
Read: Chap 1 09/04/12 – slide 33
![Page 81: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/81.jpg)
Origin of the elements
Read: Chap 1 09/04/12 – slide 34
Gas (mostly hydrogen) set-
tles in the disk of galaxies
This gas fragments into
dense knots, forms stars
The stars fuse hydrogen
into helium and heavier el-
ements, generating energy
The star explodes!
Galaxy: a huge “island” of stars
moving around a common center
and held together by gravity.
![Page 82: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/82.jpg)
Origin of the elements
Read: Chap 1 09/04/12 – slide 34
Gas (mostly hydrogen) set-
tles in the disk of galaxies
This gas fragments into
dense knots, forms stars
The stars fuse hydrogen
into helium and heavier el-
ements, generating energy
The star explodes!
Nebula: an interstellar cloud of
dust and/or gas
![Page 83: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/83.jpg)
Origin of the elements
Read: Chap 1 09/04/12 – slide 34
Gas (mostly hydrogen) set-
tles in the disk of galaxies
This gas fragments into
dense knots, forms stars
The stars fuse hydrogen
into helium and heavier el-
ements, generating energy
The star explodes!
Star: generates heat and light
through nuclear fusion
![Page 84: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/84.jpg)
Origin of the elements
Read: Chap 1 09/04/12 – slide 34
Gas (mostly hydrogen) set-
tles in the disk of galaxies
This gas fragments into
dense knots, forms stars
The stars fuse hydrogen
into helium and heavier el-
ements, generating energy
The star explodes!
Supernova: fusion fuel ex-
hausted, the star explodes
![Page 85: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/85.jpg)
Origin of the elements
Read: Chap 1 09/04/12 – slide 34
Gas (mostly hydrogen) set-
tles in the disk of galaxies
This gas fragments into
dense knots, forms stars
The stars fuse hydrogen
into helium and heavier el-
ements, generating energy
The star explodes!
![Page 86: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/86.jpg)
Time scales
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
⊲ Time scales
Read: Chap 1 09/04/12 – slide 35
Time for Earth to make one rotation: 1 day
![Page 87: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/87.jpg)
Time scales
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
⊲ Time scales
Read: Chap 1 09/04/12 – slide 35
Time for Earth to make one rotation: 1 day
Time for Earth to orbit the Sun: 1 year
![Page 88: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/88.jpg)
Time scales
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
⊲ Time scales
Read: Chap 1 09/04/12 – slide 35
Time for Earth to make one rotation: 1 day
Time for Earth to orbit the Sun: 1 year
Time for Uranus to orbit the Sun: 84 years
![Page 89: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/89.jpg)
Time scales
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
⊲ Time scales
Read: Chap 1 09/04/12 – slide 35
Time for Earth to make one rotation: 1 day
Time for Earth to orbit the Sun: 1 year
Time for Uranus to orbit the Sun: 84 years
Time for Sun to Orbit the Galaxy:
Time =2π × 28, 000 light years
200 km/s
![Page 90: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/90.jpg)
Time scales
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
⊲ Time scales
Read: Chap 1 09/04/12 – slide 35
Time for Earth to make one rotation: 1 day
Time for Earth to orbit the Sun: 1 year
Time for Uranus to orbit the Sun: 84 years
Time for Sun to Orbit the Galaxy:
Time =2π × 28, 000 light years
200 km/s
= 2π28, 000 light years
220 km/s×
9.46× 1012 km
1 light year×
1 year
3.15× 107 s
![Page 91: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/91.jpg)
Time scales
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
⊲ Time scales
Read: Chap 1 09/04/12 – slide 35
Time for Earth to make one rotation: 1 day
Time for Earth to orbit the Sun: 1 year
Time for Uranus to orbit the Sun: 84 years
Time for Sun to Orbit the Galaxy:
Time =2π × 28, 000 light years
200 km/s
= 2π28, 000✘✘✘✘✘✘
light years
220✘✘✘km/s×
9.46× 1012✟✟km
1✘✘✘✘✘light year×
1 year
3.15× 107 ✁s
= 2.4× 108 year = 240× 106 year
![Page 92: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/92.jpg)
Time scales
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
⊲ Time scales
Read: Chap 1 09/04/12 – slide 35
Time for Earth to make one rotation: 1 day
Time for Earth to orbit the Sun: 1 year
Time for Uranus to orbit the Sun: 84 years
Time for Sun to Orbit the Galaxy: 240 million years
Time for Milky Way to collide with Andromeda Galaxy:
10 billion years
![Page 93: Martin D. Weinberg UMass Astronomy weinberg@astro.umassastro.umass.edu/~weinberg/a100/lectures/lec01.pdf⊲ Stars ⊲ Galaxies & Cosmology Text book: The Cosmic Perspective: Stars,](https://reader034.vdocument.in/reader034/viewer/2022051806/6000e37d11f3a475887eda4f/html5/thumbnails/93.jpg)
Time scales
Overview
Earth in context
Scale of the Universe
Human Biases
Back in time
The Light-Year
The Course
Requirements
A100 structure
Policies
Grades
MasteringAstronomy
Scientific Notation
Light-year in km
Metric Prefixes
Measuring distance
Energy Output
Local motions
Galactic motions
Dark Matter
Expanding Universe
Motions summary
Origin of theelements
⊲ Time scales
Read: Chap 1 09/04/12 – slide 35
Time for Earth to make one rotation: 1 day
Time for Earth to orbit the Sun: 1 year
Time for Uranus to orbit the Sun: 84 years
Time for Sun to Orbit the Galaxy: 240 million years
Time for Milky Way to collide with Andromeda Galaxy:
10 billion years
Time for light to get to us from the most distant galaxy:
14 billion years