An EMP is a naturally occurring phenomenon caused by a sudden, rapid acceleration of particles that create an intense burst of energy.lightning, ignition systems of combustion engines, and solar flares are some of the causes of EMPs.This technology can be used to safely disabling electronic devices or to ensure the security of personal or confidential data.
Step 1: You should gather your materials.
You will need a disposable camera, copper wire, rubber gloves, solder and soldering tools, and an iron rod to create a simple pulse.You can find these components at your hardware store.The stronger the gauge copper wire, the more powerful your pulse will be.If you don't have an iron rod, you can use a non-metal rod.A non-metal rod will have a negative impact on the strength of your EMP.It is recommended that you wear rubber gloves when working with electrical components or running an electrical current through an object.
Step 2: An electric coil can be created.
A conductor and a core are the two main parts of an electromagnetic coil.The iron rod is your core and the copper wire is the conductor.
Step 3: The ends of your coil need to be sold.
Most circuit boards have a double-pronged, cylindrical shaped component called acapacitor.The disposable camera should have a flash.If you attempt to solder the ends of your coil to theCapacitor, be sure to remove the battery of the disposable camera.The rubber gloves you wear can prevent you from getting an electric shock.After removing the batteries from your camera, use the flash to destroy the charge in your capacitor.An electrical shock can be caused by a stored charge in your camera.
Step 4: You can find a safe place to test your device.
The effective range of your EMP should be less than a few feet in any direction, depending on the materials you have used.It is possible that your electronics may be permanently destroyed.Keep in mind that the electronics are indiscriminately influenced by EMP's.Life-supporting devices, like pacemakers, and valuables like cellular phones are included.Damage to these devices could result in legal repercussions.A grounded platform, like a tree stump or plastic table, is an ideal testing surface.
Step 5: There is a suitable test object.
If you're looking for an inexpensive electronic device, you may want to check out your local electronics store.If your electronic device stops working, you have created an electric pulse.You can use an electronic calculator at an office supply store.
Step 6: Attach the camera battery back to it.
You will need electricity to re-charge yourCapacitor, which will give you the current to your coil.You need to make sure your test object is close to your emitter.
Step 7: Allow it to charge.
If you want to do this, you need to remove the wires from the coil, allow the battery's current to feed into the capacitor, and then use rubber gloves or plastic tongs to attach the wire to theCapacitor.A taser-like zap is possible if you use your bare hands.
Step 8: The flashCapacitor should be activated.
By using the flash of your camera, you will release the stored electricity in it, which will cause a surge through your coil.Any electronics that are switched off will be affected by the nature of the EMP field.If your EMP has worked, the calculator won't turn on, even if you chose it as your test object.Depending on the type of flashCapacitor you have used, the voltage required to charge will be variable.A disposable camera will have an approximate capacitance of between 80 and 160 microfarads and a voltage between 180 and 330 volts.
Step 9: You should gather your materials.
If you have the right tools and components on hand, the construction of your handheld device will go smoothly.You will need: AA battery, copper wire, cardboard, electrical tape, rubber gloves, simple electrical switch, and Walkie-talkie antenna.
Step 10: The camera circuit board should be removed.
The main circuit board that controls the functions of your camera is inside your disposable camera.First, remove the batteries, then the circuit board, and then look at the position of the flashCapacitor.The rubber gloves you wear can prevent you from getting an electric shock.Capacitors look like cylinders attached to a circuit board.This is a necessary component for the device.After removing the batteries from your camera, use the flash to destroy the charge in your capacitor.An electrical shock can be caused by a stored charge in your camera.
Step 11: Attach your copper wire to your iron core.
If you don't have an adequate length of copper wire, your wrap should cover your iron core.A loose winding will negatively impact your EMP, so you should wrap your wire tightly.
Step 12: Make sure you have a walkie-talkie antenna.
You can use the walkie-talkie antenna to fix the camera circuit board.Wrap the base end of your walkie-talkie antenna in electrical tape as a preventative measure.
Step 13: Attach the camera circuit to a piece of cardboard.
You can use your cardboard to help prevent electrical shocks.Attach your electrical tape to a piece of cardboard and make sure not to cover the electric pathways of your camera circuit.Attach your camera circuit face up so that the cardboard doesn't interfere with the connection pathways.There should be more space for your AA holder in your cardboard mount.
Step 14: Attach the end of your walkie-talkie antenna to the coil.
Since current will be running through your coil to create your EMP, it's a good idea to double insulate your antenna by putting another small piece of cardboard between it and the coil.Attach your coil to the cardboard with your electrical tape.
Step 15: You should sell your power source.
Find the battery tabs on your camera circuit and connect them to the positive and negative ends of your AA battery holder.This can be attached to a camera circuit mount with electrical tape.
Step 16: Attach your coil to your Capacitor.
The excess wire that you left at the beginning and end of your copper wire will need to be soldered.Tie in your electrical switch between the two components to control the flow of electricity.
Step 17: Attach the mount to the antenna.
Attach your cardboard mount to your antenna with electrical tape.You should insulate the base of your antenna with electrical tape if you attach your mount above it.
Step 18: You can find a test object and location.
A calculator is ideal for testing a handheld device.Depending on the materials and technique you used in the construction of your device, you may be able to reach up to several feet around your coil.
Step 19: You can test your handheld device.
Attach your batteries to the AA battery holder on your cardboard mount by checking that the switch for your device is off.If you want to conduct an experiment, you need to hold your device by the insulated base of the antenna and flick your switch to the "On" position.If you don't know what you're doing, you may want to wear a pair of rubber gloves when operating your device.If your device has worked, your test object and other electronics will not turn on.Depending on the type of flashCapacitor you have used, the voltage required to charge it will be variable.A disposable camera should have an approximate capacitance of between 80 and 160 microfarads and a voltage between 180 and 330 volts.