SCI-103 Introductory Astronomy Spring 2013 Homework 1

SCI-103 Introductory Astronomy Spring 2013 Homework 1

Ratio and Proportion Problems

1.  How many Earths could fit side by side across the Sun? Look up the radii of the Earth and Sun

Radius of the Earth =

Radius of the Sun =

The Ratio

109 Earths could fit side by side across the Sun.

2.  How many Earth’s could fit between the Earth and the Moon? Look up the distance to the Moon

Distance to the Moon =

Diameter of the Earth =

The Ratio

About 30 Earths could fit side by side Between the Earth and the Moon.

3.  How many Earth’s could fit between the Sun and the Earth? Look up the AU

1 AU =

Diameter of the Earth =

The Ratio

Almost 12,000 Earths could fit side by side between the Earth and the Sun.

4.  How many Suns could fit side by side across the solar system? Look up Pluto’s Distance from the Sun (There is an error in this solution. Mathew Thomas found it. Can you?)

Pluto’s distance from the Sun = 39 AU =

Diameter of the Sun =

The Ratio

About 4,200 Suns could fit side by side across our solar system.

5.  How many solar systems could fit side by side between the Sun and the next nearest star Proxima Centauri? Look up the distance to Proxima Centauri

Distance to Proxima Centauri = 4.3 ly =

Diameter of the Solar System = 78 AU =

The Ratio

About 3,400 of our solar systems could fit side by side between the Sun and the nearest star Proxima Centauri.

6.  How many solar systems could fit side by side across the Milky Way galaxy? Look up the diameter of the Milky Way galaxy.

Diameter of the Solar System = 78 AU =

Diameter of the Milky Way = 100,000 ly =

The Ratio

About 81 Million of our solar systems could fit side by side across the Milky Way Galaxy.

Proportion and Celestial Sphere Problems

Proportion Problems

1.  If the Earth were 1 foot in diameter, how far away would the Sun be?

If the Earth were 1 foot in diameter, the Sun be 2.23 miles away.

2.  If an AU were shrunk to 1 foot, how far away would the next nearest star be?

If the AU were 1 foot in diameter, the nearest star be 50.7 miles away.

3.  If an AU were shrunk to 1 foot, what would be the diameter of the Milky Way galaxy?

If the AU were 1 foot in diameter, the Milky Way Galaxy would be 1.20 million miles across.

4.  If an AU were shrunk to 1 foot, what would be the diameter of the Earth?

If the AU were 1 foot in diameter, the Earth would be 0.001 inch across.

5.  If a light year were shrunk to 1 foot, what would be the distance to the nearest large galaxy, M31?

If the light year were 1 foot in diameter, the nearest large galaxy, M31, would be 473 ,miles away.

6.  If the Milky Way galaxy were shrunk to 1 foot in diameter, what would be the diameter of the observable Universe?

If the Milky Way Galaxy were 1 foot in diameter, the diameter of the visible universe would be 51.9 miles.

Reflection Questions

What is your impression of the scale of the Universe after doing these calculations?

Which answer surprised you the most?