A Scale Model of the Solar System
Name:_____________________________________
Part I: Introduction to our Scale:
Let's have a volleyball (diameter 8.5 inches) represent the Sun in a scale model
of our Solar System. The Sun is really 1,390,000 km in diameter! So the
scale of our model is about 1 inch for every 160,000 km, or about
1 inch for every 100,000 miles!
-
Write down how big you think the Earth will be in this scale model (pinhead,
marble, golf ball, baseball, other?).
- Fill in these blanks as I give them to you.
The Earth's diameter is about 12,756 km. In our scale, this is
well represented by a ___________________ about _________________ inches
in diameter!
Part II: Sizes of the Objects
-
Here is a table giving each object in our model of the Solar System.
Fill in the table as we discuss it.
| OBJECT |
DIAMETER (km) |
REPRESENTATIVE OBJECT |
DISTANCE (AU) |
SCALED DISTANCE (feet) |
|
| Sun |
1,391,980 |
volleyball |
0. |
0. |
| Mercury |
4,878 |
_________________ |
0.3871 |
_______________ |
| Venus |
12,104 |
_________________ |
0.7233 |
_______________ |
| Earth |
12,756 |
_________________ |
1.0 |
_______________ |
| Mars |
6,796 |
_________________ |
1.5237 |
_______________ |
| Jupiter |
142,988 |
_________________ |
5.2028 |
_______________ |
| Saturn |
120,660 |
_________________ |
9.5388 |
_______________ |
| Uranus |
51,118 |
_________________ |
19.18 |
_______________ |
| Neptune |
49,500 |
_________________ |
30.0611 |
_______________ |
| Pluto |
2,302 |
_________________ |
39.44 |
_______________ |
|
Notice that even Jupiter (the largest planet) is much, much smaller
than the Sun!
Part III: Distances Between the Objects
-
Without doing any calculations, tell me how big you think our
model of the entire solar system will be? Will it fit on a table?
Inside this room? Inside this building? Inside Campus? Inside La Crosse?
The distances given in the table above are the average distances
between the Sun and the orbit of each planet. The unit of distance used is the
Astronomical Unit (AU): 1 AU = the distance between the Earth and the Sun,
which is 149,597,900 km (about 90 million miles).
- Using this scale,
we can calculate that Mercury is (on average) 57,909,400 km from
the Sun. In our scale model of the solar system, this is
almost _______________________!
- Clearly, we will have to leave this room to get a visual picture
of the size of the solar system! As we go on a tour of our scale-model,
fill in the remaining column of the Table above.
Part IV: Our Place in the Universe
-
The nearest star (other than the Sun) is 4.28 light years away!
It takes light 4.28 years to go from that star to us! This is 265,608 AU!
Guess how far away (in our scale model) this star would lie?
-
At a distance of 265,608 AU, or 40,000,000,000,000 (40 thousand million) km,
the next volleyball-sized object in our scaled model is about
_______________ yards away, or _________________ ! No wonder the other stars
all look faint relative to the Sun!