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This wikiHow teaches you how to make a simple, light-activated robot that can vibrate its way across a surface. While the robot detailed here won't perform complex tasks, building it will help you develop a basic understanding of circuitry fundamentals which you can use to build more complicated robots in the future. Keep in mind that you'll need a budget of around $50 for this project if you don't already have most of the required components.

Part 1
Part 1 of 4:

Getting the Necessary Parts

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  1. You can find most of the electrical parts listed in this section in most stores which sell electrical or automotive supplies; additionally, you can find all of the parts listed here online at places such as Amazon and eBay.
    • If possible, shop online for the components. You'll have a better opportunity to read reviews of the products, and you may qualify for a shipping discount.
  2. Hook up wire, also called circuit wire, is basic copper wire in a plastic sheath.
    • If you have a choice, opt for stranded hook up wire rather than solid wire. Stranded is easier to manipulate and solder within the parameters of this project.
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  3. This is essentially the body of your robot; it will hold the battery, host the main connections, and mount the "feet" of the robot.
    • Make sure that your battery holder uses a clip to secure the battery.
    • Your battery holder should have two basic wire connectors—one positive and one negative—on the bottom. If you find a holder which has a different layout, the assembly instructions may not work.
  4. Coin cell batteries are round, flat batteries which are often used to power items such as watches and other small electronics. You can find them in most department stores, though an electronics store or a Home Depot may be a better place to look.
  5. To create the robot's "feet", you'll need three 5/16ths inch diameter ball bearings. You can find these in several home appliances (e.g., old DVD players), but you can also purchase new ones at most automotive or electronics stores.
  6. In order to create the circuit that will tell the robot to move when exposed to light, you'll need the following items, all of which can be found online:
    • One 4.7k resistor (1/2 W)
    • One photoresistor (also called a photo cell)
    • One 2N3904 transistor
  7. Vibration motors, such as the ones found in older cell phones, can be purchased online and in most electronics stores. Make sure you buy a model of vibration motor that has a red wire and a blue wire for its connections.
    • If you have an old flip phone or pager, you can take it apart and pry out the vibration motor.
    • Using a vibration motor which doesn't have red and blue wires will result in the assembly instructions not working.
  8. Before you can put together your robot, ensure that you have (and know how to use) each of the following items:
    • Solder gun and solder
    • Hot glue gun
    • Wire cutters
    • Wire strippers
    • Needle nose pliers
    • Electrical tape (or similarly opaque, easily removed tape)
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Part 2
Part 2 of 4:

Creating the Battery Compartment

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  1. Before you connect any wires to the battery holder, try sliding the battery into its slot and securing it with the built-in clamp. If the battery is too small or too large, you'll need to purchase the correct size before you can run your robot.
    • Your battery holder's packaging or included documentation should have a section regarding the supported sizes of battery.
  2. These should be two pins on opposite sides of the bottom of the battery holder; the pin connected to the clamp which holds the battery is the positive connector, while the adjacent pin is the negative connector.
    • You'll need to know which connector is which when attaching the motor and circuit to the battery holder.
  3. The connectors should be bent away from the center of the battery holder so that they face outward.
  4. Cut about four inches of hook up wire off of the spool, then use the wire strippers to remove 3/4 of an inch of tubing from each end of the wire.
  5. Place an exposed end of the wire on the positive connector, then use your soldering gun and solder to cement the wire in place.
    • Once you've successfully soldered the wire in place, you can proceed to the next part.
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Part 3
Part 3 of 4:

Creating the Circuit

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  1. These are the components of your robot's circuit.
  2. While you'll use two of the transistor's wires (or "leads") in the circuit, one of the leads must be left alone for later; you can use the needle nose pliers to bend this lead over.
  3. The photoresistor's two leads are usually an inch to an inch and a half in length, so use the wire cutters to snip all but about 3/4 of an inch off of the leads. [1]
    • This will make the photoresistor less cumbersome to mount later.
  4. Take the other exposed end of the wire that you soldered to the battery holder, then solder it to one of the photoresistor's leads.
  5. Solder each of the photoresistor's leads to each of the unbent transistor leads.
  6. You'll solder one end of the resistor to the photoresistor lead that isn't connected to the battery compartment's wire.
    • At this point, your photoresistor should have one lead that's connected to a transistor lead and the battery compartment wire, and one lead which is connected to a transistor lead and the resistor lead.
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Part 4
Part 4 of 4:

Building the Robot

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  1. Place a couple of dots of hot glue on the bottom of the battery compartment, then quickly place the vibration motor on top of the hot glue and hold it there until it dries.
    • You'll want to make sure the motor's weight isn't obstructed by any of the battery compartment's components. If you can't spin the motor's weight without the weight hitting something, re-glue the weight as needed.
  2. Using the motor's blue wire and the remaining (bent) transistor lead, solder the two together.
  3. Solder both the resistor's free end and the motor's red wire to the negative connector on the bottom of the battery compartment.
    • Remember, the negative connector is the one not attached to the first battery compartment wire you soldered.
  4. How you place these is up to you, but you'll most likely want to glue a ball bearing on both the left and right side of the motor and then fit the third one wherever you can.
  5. Use a small piece of electrical tape to cover the flat portion of the photoresistor's head. This will prevent the robot from activating as soon as you place the battery.
  6. Lift the clamp on top of the battery compartment, then slide in the coin cell battery and release the clamp.
  7. Place the robot on a flat, well-lit surface, then remove the piece of tape from the photoresistor. The robot should begin vibrating around the surface.
    • Since the photoresistor is sensitive to light in general (not just sunlight), you'll want to cover the photoresistor when not using the robot.
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Community Q&A

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  • Question
    What's the purpose of this robot?
    Community Answer
    It's a good way to learn about robotics, to make something simple enough for a beginner but interesting enough to keep you enthused about the process of robotics.
  • Question
    What will the robot do?
    Community Answer
    That depends on the type of robot you build. If you build a very simple robot and program it simply, it may just drive around in straight lines or circles. More complex robots can hold more programming directions, and may do more complex things.
  • Question
    Is this really easy to do?
    Community Answer
    Yes. It might be a little difficult to find a motor at the store, but you can find the same motor in your DVD player if you are willing to take it apart.
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      Tips

      • You can experiment with different sizes of ball bearings or other mounting strategies, though using something that's too heavy will result in your robot not being able to move.
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      Warnings

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      Expert Interview

      Thanks for reading our article! If you’d like to learn more about building robots, check out our in-depth interview with Ricardo Mitchell .

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        Jun 11, 2018

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