Difference between revisions of "Magnetize a Screwdriver"
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== Steps == | == Steps == | ||
===Using a Magnet=== | ===Using a Magnet=== | ||
| − | #Choose a strong bar magnet. The stronger the magnet, the easier it will be to magnetize the screwdriver. Ideally, find a neodymium magnet or other rare-earth magnet with a pull force of at least ¼ pound.<ref>http://www.bobvila.com/articles/how-to-magnetize-a-screwdriver/#.V9bmnrV2F8A</ref> These are available at hardware stores or online. | + | #Choose a strong bar magnet. The stronger the magnet, the easier it will be to magnetize the screwdriver. Ideally, find a neodymium magnet or other rare-earth magnet with a pull force of at least ¼ pound.<ref name="rf1">http://www.bobvila.com/articles/how-to-magnetize-a-screwdriver/#.V9bmnrV2F8A</ref> These are available at hardware stores or online. |
| − | #*If you don't mind destroying an old hard drive, you can disassemble it to get two strong magnets.<ref>http://blog.first4magnets.com/how-to-get-neodymium-magnets-from-a-hard-drive/</ref> | + | #*If you don't mind destroying an old hard drive, you can disassemble it to get two strong magnets.<ref name="rf2">http://blog.first4magnets.com/how-to-get-neodymium-magnets-from-a-hard-drive/</ref> |
| − | #Wipe the screwdriver clean. Remove any grime from the screwdriver. If you need to use a damp cloth, dry the tool thoroughly afterward.<ref | + | #Wipe the screwdriver clean. Remove any grime from the screwdriver. If you need to use a damp cloth, dry the tool thoroughly afterward.<ref name="rf1" /> |
| − | #Slide the magnet from the handle to the tip. Touch one end of the magnet to the metal surface of the screwdriver, next to the handle. Drag it down to the tip. This causes small magnetic regions (domains) in the steel to align in the direction of the magnet's field.<ref>https://www.nde-ed.org/EducationResources/HighSchool/Magnetism/magneticdomain.htm</ref> | + | #Slide the magnet from the handle to the tip. Touch one end of the magnet to the metal surface of the screwdriver, next to the handle. Drag it down to the tip. This causes small magnetic regions (domains) in the steel to align in the direction of the magnet's field.<ref name="rf3">https://www.nde-ed.org/EducationResources/HighSchool/Magnetism/magneticdomain.htm</ref> |
#*On a large screwdriver, magnetize the half closest to the tip instead of the whole tool. | #*On a large screwdriver, magnetize the half closest to the tip instead of the whole tool. | ||
#Repeat this motion in the same direction. Take the magnet off the screwdriver, then drag it from the handle to the tip again. Repeat this several times, using the same end of the magnet each time. | #Repeat this motion in the same direction. Take the magnet off the screwdriver, then drag it from the handle to the tip again. Repeat this several times, using the same end of the magnet each time. | ||
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#Rotate and repeat. Rotate the screwdriver by a quarter turn. Drag the magnet from handle to tip again several times. Repeat with the third and fourth sides of the screwdriver. | #Rotate and repeat. Rotate the screwdriver by a quarter turn. Drag the magnet from handle to tip again several times. Repeat with the third and fourth sides of the screwdriver. | ||
#Test the screwdriver. If the screwdriver can't pick up a screw magnetically, repeat the process. If it still doesn't work after ten passes on each side, try again with a stronger magnet. | #Test the screwdriver. If the screwdriver can't pick up a screw magnetically, repeat the process. If it still doesn't work after ten passes on each side, try again with a stronger magnet. | ||
| − | #*A hard steel screwdriver can stay magnetized for months. If you'd like to demagnetize it, run the magnet back the other way (tip to handle), or whack the screwdriver against the wall a few times to scramble its magnetic domains again.<ref>http://www.popularmechanics.com/cars/how-to/a4755/4334647/</ref> | + | #*A hard steel screwdriver can stay magnetized for months. If you'd like to demagnetize it, run the magnet back the other way (tip to handle), or whack the screwdriver against the wall a few times to scramble its magnetic domains again.<ref name="rf4">http://www.popularmechanics.com/cars/how-to/a4755/4334647/</ref> |
===Using a Battery=== | ===Using a Battery=== | ||
#Strip the insulation from both ends of a piece of wire. Cut off a piece of wire at least 3 ft. (0.9m) long, then strip about an inch (2.5 cm) of insulation off each end. | #Strip the insulation from both ends of a piece of wire. Cut off a piece of wire at least 3 ft. (0.9m) long, then strip about an inch (2.5 cm) of insulation off each end. | ||
| − | #*Thin wire can overheat, while thick wire will be less effective. Try 16–22 AWG (1.3–0.6mm diameter) wire.<ref>https://www.teachengineering.org/activities/view/cub_mag_lesson2_activity1</ref><ref>http://www.electronixandmore.com/projects/toolmagdemag/index.html</ref> | + | #*Thin wire can overheat, while thick wire will be less effective. Try 16–22 AWG (1.3–0.6mm diameter) wire.<ref name="rf5">https://www.teachengineering.org/activities/view/cub_mag_lesson2_activity1</ref><ref name="rf6">http://www.electronixandmore.com/projects/toolmagdemag/index.html</ref> |
| − | #*Thinner insulation enables stronger magnetization. Enamel-coated wire gives the best results.<ref>http://electronics.stackexchange.com/questions/77549/how-to-properly-wind-coils-for-a-solenoid</ref> To strip the enamel off the ends, rub the wire with 220-grit sandpaper.<ref>https://www.youtube.com/watch?v=Pd5Q-XDmvys</ref> | + | #*Thinner insulation enables stronger magnetization. Enamel-coated wire gives the best results.<ref name="rf7">http://electronics.stackexchange.com/questions/77549/how-to-properly-wind-coils-for-a-solenoid</ref> To strip the enamel off the ends, rub the wire with 220-grit sandpaper.<ref name="rf8">https://www.youtube.com/watch?v=Pd5Q-XDmvys</ref> |
#Coil the wire around the screwdriver. Wrap the wire tight around the screwdriver shaft ten to twenty times. You can double back for a second layer if the screwdriver is too short, but don't reverse the direction of the loop. (For example, you can move left—right—left along the screwdriver, but make sure to wind every loop clockwise.) Tape the wire in place if necessary. | #Coil the wire around the screwdriver. Wrap the wire tight around the screwdriver shaft ten to twenty times. You can double back for a second layer if the screwdriver is too short, but don't reverse the direction of the loop. (For example, you can move left—right—left along the screwdriver, but make sure to wind every loop clockwise.) Tape the wire in place if necessary. | ||
#Attach the wires to a household battery. Attach the wire ends to the terminals of a 6V or 9V battery. The current flowing through the coils will create a magnetic field, which in turn magnetizes the screwdriver. | #Attach the wires to a household battery. Attach the wire ends to the terminals of a 6V or 9V battery. The current flowing through the coils will create a magnetic field, which in turn magnetizes the screwdriver. | ||
| − | #*Using higher voltage batteries is not recommended unless you have experience handling them safely. Anything more powerful than a 9 volt battery only needs to be connected for a split second to magnetize the screwdriver.<ref>https://www.youtube.com/watch?v=Q0kC2Oory5c</ref> Wear insulated gloves to protect from shocks and sparks. | + | #*Using higher voltage batteries is not recommended unless you have experience handling them safely. Anything more powerful than a 9 volt battery only needs to be connected for a split second to magnetize the screwdriver.<ref name="rf9">https://www.youtube.com/watch?v=Q0kC2Oory5c</ref> Wear insulated gloves to protect from shocks and sparks. |
| − | #Disconnect the battery. The screwdriver will always be magnetic while connected to the battery, but the wire and battery terminals will heat up quickly.<ref | + | #Disconnect the battery. The screwdriver will always be magnetic while connected to the battery, but the wire and battery terminals will heat up quickly.<ref name="rf5" /> Disconnect the battery after 30 to 60 seconds, then try to pick up a screw with the screwdriver. In most cases, it will still be magnetic. |
#*If the screwdriver loses its magnetism after the battery is disconnected, wrap a few more loops of wire and try again. | #*If the screwdriver loses its magnetism after the battery is disconnected, wrap a few more loops of wire and try again. | ||
== Tips == | == Tips == | ||
| − | *If you don't have a magnet or a battery, you can weakly magnetize a screwdriver using nothing but a hammer!<ref>https://van.physics.illinois.edu/qa/listing.php?id=436</ref> Tape the screwdriver down so the tip points to magnetic north. Strike it with the hammer many times. This jostles the magnetic domains enough to line up with the earth's magnetic field. | + | *If you don't have a magnet or a battery, you can weakly magnetize a screwdriver using nothing but a hammer!<ref name="rf10">https://van.physics.illinois.edu/qa/listing.php?id=436</ref> Tape the screwdriver down so the tip points to magnetic north. Strike it with the hammer many times. This jostles the magnetic domains enough to line up with the earth's magnetic field. |
*The screwdriver will become less magnetic over time. Dropping the screwdriver or hitting things with it will demagnetize it more quickly. | *The screwdriver will become less magnetic over time. Dropping the screwdriver or hitting things with it will demagnetize it more quickly. | ||
