The Logic of Self Acceptance

If you wander to the book store and pop open a self-help book, you’ll probably make it a few pages before you stumble on the following advice: Indeed, the idea of ‘self acceptance’ is one of the most…

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How to make a Solar Rover

Build a Solar Rover that uses power from the sun, then design wheels to explore imaginary planets (or your backyard)!

When scientists and engineers send out a rover to Mars, which is more than 33 million miles away from earth, they make sure it has power so it can move around. Power allows them to control and navigate the rover. The rover collects and sends data back to scientists and engineers here on earth.

Power and wheels are two of the many important components on a rover. In this activity, the goal is to make a Solar Rover that can travel from point A to point B over obstacles and terrains.

Through this designing and engineering process, you will learn;

You are highly encouraged to manipulate and change the shape and design of the non electronic parts.

If you choose not to get the kit from REcharge Labs, you can easily find the materials used in this activity with a couple searches.

Rover’s main parts:

(1) 2” by 6” Cork base

(1) Gear motor

(1) Solar panel

(1) Solar panel stand (optional for Charging station)

(1) 2.7V-10F super capacitor

(1) Straw for front axle holder

(1) Candy melts treat stick, or paper stick ( axle)

(1) Roll of masking tape

(2) Spring connectors

(4) Pool noodle foam wheels

Optional wheels exploration parts:

Thick rubber bands (size of the rubber band must fit with the foam wheels)

Different grit of sandpaper

Screws to make studded wheels

Scissors to trim or change wheels.

Other materials around the house or classroom to experiment with traction.

Use a cork sheet as the frame of the rover. Put a spring in each hole on the cork. These springs will act as connectors.

Take two axle adapters and the motor. Force fit the two axles onto the motor. Try to push them both on at the same time with pressure from each side.

Now, tape your motor to the cork frame. Or use rubber bands to hold the motor to the cork frame.

Cut the straw to the width of the cork frame. Place it in the front end of the cork frame. This straw will hold the front axle in place.

With the paper stick, put in one of the axle adapters. Then put the other end through the straw/axle holder on the rover. Finish the front axle with another axle adapter.

Connect the motor wires to each spring. Put each wire through a spring hole from the bottom up. On the top side, bend each spring to clamp down each wire. Make a note on which color wire is connected to which spring. Red is positive (+) and Black is negative (-). The wires from the motor can also go on the side of the rover. It does not has to go through the hole of the springs.

Use a supercapacitor as energy storage. Connect the supercapacitor to the motor by putting the longer leg to the spring where the red (+) wire is connected to. Then connect the shorter leg on the supercapacitor to the spring where the black (-) wire connected to.

Adding wheels to each axle. At this point, try not to add anything or make change to the wheels just yet. Make changes to the wheels after testing to see if the Solar Rover works.

To make the charging station, create a stand for the solar panel. Or you can use a suction cup phone stand to hold the solar panel.

To charge the Rover, connect the red (+) wire from the solar panel to the positive spring and the black wire to the negative spring. Put it out in the sunlight for about 30 seconds or until the Rover starts to move. When the Rover is ready and starts to move, disconnect the rover from the solar panel. Try to time the rover to see how far it can go depending on how long it’s charged.

Have the supercapacitor and the solar panel on board. To do so, follow the same connection as the previous step but put the solar panel on the rover instead of a stand.

You can experiment with connecting the solar panel directly to the motor without a super capacitor.

After testing and making sure that the Solar Rover works, it’s time for traction experiment. The wheels can be cut into or adding more materials on to. Test and observe to see what materials work best on what surfaces?

The pin of each wire from the motor might break due to the spring clamping on it. The motor is not broken, and the part is easy to fix! If this happens, cut off the black plastic piece then strip and expose the wire about half an inch. Bend the spring and insert the exposed wire between the gap. The spring should hold the wire in place. Now connect the solar panel to the spring on the rover using the alligator clip. Position the solar panel on the rover and use rubber band to secure it in place.

To do this activity for drop in program and are out in the sun, it helps to have the Solar Rover connected directly to the solar panel through the springs. Cut the end loop of the spring to a half loop or like a hook as seen on the picture.