Sunshine in your pocket!


Print this page for most of the sundial lesson. At the bottom of this page, please click on the difficulty level you prefer, enter your lattitude, and then print the resulting page for the rest of the lesson. This lesson is for the southern hemisphere.

***These pages are viewed best with 14pt font size***

After completing the activities on the next few pages you will be able to make a necklace or keychain horizontal sundial like those seen in the image above. These sundials are fun, portable, and inexpensive. A complete necklace can cost as little as 30 cents! They make a terrific classroom activity for students of all ages, and also make wonderful gifts. Let's get started.

To understand how a horizontal sundial tells time, we must first understand the path the Sun takes through the sky.

How does the Sun appear to move across our sky?

Image Credit: Philip Lau

Have you ever noticed how
the Sun moves across the sky
during the course of a day?

Does the Sun change its path
through the sky from month
to month?

Are there certain times
during the year when you
know through which part of
the sky the Sun will travel?

These questions are best answered if you have an entire year to make observations of the Sun to see how its movement through the sky varies. If you do not have an entire year to observe the Sun, below are some links that may help you understand the Sun's motion and then you can spend the next year testing your understanding!

Many people know that the Sun rises in the east and sets in the west, but does it rise EXACTLY east and set EXACTLY west every day?

We also know that the days are longer in the summer and shorter in the winter, but have you ever thought about how the Sun's path through the sky is changing to create these differences?

Let's look at a graphic to help understand the answers to these questions.

The Sun in the sky during the Winter

In the winter the days are short and the Sun in low in the sky. The graphic above shows the Sun's path through the sky on the shortest day of the year, the winter solstice. This is the day when the Sun is the lowest in the northern sky.

During the short winter days the Sun does not rise exactly in the east, but instead rises just north of east and it sets north of west.

Each day after the winter solstice, which occurs on June 21st, the Sun's path becomes a little higher in the northern sky. The Sun also begins to rise closer to the east and set closer to the west until we reach the day when it rises exactly east and sets exactly west. This day is called the equinox. In the spring we have the Spring Equinox about September 21st. There is also a Fall Equinox on March 21st.

The Sun in the sky during the Spring and Fall Equinox

The Sun is at its lowest path in the sky on the Winter Solstice. After that day the Sun follows a higher and higher path through the sky each day until it is in the sky for exactly 12 hours. On the Spring Equinox the Sun rises exactly in the east travels through the sky for 12 hours and sets exactly in the west. On the Equinox this is the motion of the Sun through the sky for everyone on earth. Every place on earth experiences a 12 hours day twice a year on the Spring and Fall Equinox.

After the Spring Equinox, the Sun still continues to follow a higher and higher path through the sky, with the days growing longer and longer, until it reaches it highest point in the sky on the Summer Solstice.

The Sun in the sky during the Summer

On the Summer Solstice the Sun is at its highest path through the sky and the day is the longest. Because the day is so long the Sun does not rise exactly in the east, but rises to the south of east and sets to the south of west allowing it to be in the sky for a longer period of time.

After the summer solstice the Sun follows a lower and lower path through the sky each day until it reaches the point where it is in the sky for exactly 12 hours again. This is the Fall Equinox. Just like the Spring Equinox, the Sun will rise exactly east and set exactly west on this day and everyone in the world will experience a 12 hour day.

After the Fall Equinox the Sun will continue to follow a lower and lower path through the sky and the days will grow shorter and shorter until it reaches its lowest path and then we are back at the Winter Solstice where we started.

In each of the diagrams displaying the path of the Sun for different times of the year you might have noticed an arrow pointing towards the South Celestial Pole. We need to understand why the location of the South Celestial Pole is important in building our sundials. Let's find out!

The Sun in the sky at different times of the year

The South Celestial Pole is the point in the sky about which all the stars seen from the Southern Hemisphere rotate.

You might wonder why this is important for building sundials. The Sun is also a star, so the Sun also rotates around the South Celestial Pole. It is this rotation that will allow us to use the Sun to tell time.

We need to know where the South Celestial Pole is to use our sundials. How can we find this special place in the southern sky?

No matter where you live in the Southern Hemisphere there is an easy way to find the South Celestial Pole. As you might have guessed it is located due south, but how high in the sky is it? The South Celestial Pole is up in the sky at the same angle as your latitide. So if you live at 50 degrees latitude, the South Celestial Pole will be due south, up 50 degrees.

(An average person has about 10 degrees, from little finger to folded thumb, in a closed fist when held an arm's length away.)

The arrow you see pointing toward the South Celestial Pole in the diagram above is infact the axis about which the Sun, and all other stars rotate. All we need to do to make a well designed horizontal sundial tell time is to point the gnomon of the sundial along this axis. Then, as the Sun rotates around the gnomon it will cast a shadow onto our sundial surface where we will mark the appropriate hourlines. Both the angle of the gnomon and the position of the hourlines depend on the latitude where the sundial will be used.

To use your sundial you will need to be able to find the direction of due south. A shadowplot is a fun and easy way to find geographic south.

Making a shadow plot


Making a shadow plot of your own can be useful in a many ways. During the course of only one day a shadow plot can help you determine which direction is due south at the location where the shadow plot is made. A compass uses the earth's magnetic field to find south and therefore points toward magnetic south, which is not in the same place as geographic south.

A shadow plot can also help you obtain a feel for how the Sun's path changes across the sky from day to day. To see this effect it is best to work on the shadow plot for several weeks.

Setting up your shadow plot

It is best to set up your shadow plot in the morning, around 9:00.

Once you have found a flat location, clear from shadows, push the ball of clay onto the ground. Insert the wooden dowel into the ball of clay so that it stands vertically. The dowel will need to stand in this exact location for the entire day, or for several weeks, so make sure it is secure. You may need to wrap some duct tape around the base of the dowel and further secure it to the ground in this manner or be creative and find a way to secure the dowel so that it remains perfectly vertical.

Once your dowel is in place look for its shadow. If it is morning, the dowel's shadow should be pointing west. Lie your piece of paper down on the south side of the dowel with the middle of the long edge up against the base of the dowel support. (You can figure out which general direction is south since you know the Sun is in the east and the dowel shadow is facing west.)

The image above will help you set up your materials correctly.
Secure the piece of paper with several rocks. Place the rocks, or other heavy objects, around the edge of the paper so they do not obscure the middle where you will be making your plot.

You are now ready to start making your measurements.
The shadow from the dowel should be on your piece of paper. If it is not wait about an hour and return once the shadow is cast onto the paper. When you have the shadow on the paper, use your permanent marker to make a mark at the very end of the shadow.

Return to your shadow plot about once every half hour and make a mark at the end of the shadow each time. If you begin your plot at 9:00 a.m. you should have enough markings by 3:00 p.m. When you are finished with one day of measurements you plot should look like the one above.

You are now ready to use this plot to find Geographic South.

Using a Shadowplot to find the North-South line

After one day of shadow measurements you are ready to draw the North-South line. On your completed shadow plot draw a smooth curve through all of the marks that you have made, without moving the paper. The more often you have taken your measurements, the easier it will be to draw this curve accurately.

Once you have drawn a smooth curve through the markings, you want to find the shortest distance between the dowel base and this curve. To do this place a meter stick so that one end is at the dowel base and the curve crosses the meter stick at some other point. Pivot the meter stick about the end at the dowel base until the find the location on the curve that is the shortest distance from the dowel base.

Draw a line from the dowel base to this point as in the image below.

This line you have just drawn is called a North-South line. It is the line along which the Sun will cast a shadow at local noon. (Your local noon may not be exactly when the clock says noon depending on where you are in your timezone.)

This North-South line points exactly North and South. A line drawn perpendicular to this line will point East and West. You will need to know the exact direction of South to use your horizontal sundial.

In addition to finding the direction of south you will need to know the latitude of the town or city where you intend to use your sundial in order to build it accurately. If you do not know the latitude of a particular part of the world you can figure it out by looking on a globe or a map that has the latitude lines marked. Latitude is measured in degrees from the equator. The equator is zero degrees latitude, the north and south poles are ninety degrees latitude. Here is a latitude grid of the world.

Use the grid below to find the latitude of the location where your sundial will be used.

Now that we understand a little about how the Sun moves through the sky, we know how to find due south and we know the latitude for which we want to build a sundial, we are ready to continue.

The complete construction of a sundial involves the use of a protractor and the understanding of some trigonometric functions like sine and tangent.

The different levels below allow you to construct a sundial no matter what experience you have with these mathematical tools. Select the level appropriate for your understanding from the choices below and we'll get to work!

If you are comfortable using a protractor and are familiar with the trig functions sine and tangent this is the level for you!

If you are comfortable using a protractor to measure angles, but are not familiar with the trig functions sine and tangent select this level.

If you are not comfortable using a protractor and are not familiar with the trig functions sine and tangent start at this level.

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Lesson designed by the YPOP Team

For questions about this lesson, please contact Michelle B. Larson