How can we increase the magnetic field of an electromagnet?
Explain each method.
Explain each method.
Increase Current Magnitude According to Ampère's Law, the magnetic field around a current-carrying wire is directly proportional to the strength of the current. In other words, increase the current strength and you increase the magnetic field, and there is more than one way to do this:
- Increase the Voltage: Ohm's Law tells you that current is proportional to voltage, so if you're running your electromagnet on a 6-volt battery, switch to a 12-volt one. You can't keep increasing voltage indefinitely, however, because wire resistance increases with temperature until a limiting current is achieved. That brings you to the next option.
- Lower the Wire Gauge: Wire resistance decreases with increasing cross-sectional area, so reduce the wire gauge. Keep in mind that reducing the gauge is synonymous with increasing the wire thickness. If you've wrapped your solenoid with 16-gauge wire, replace it with 14-gauge, and the magnet will be stronger.
- Lower the Temperature: Resistance increases with temperature, so if you can maintain your magnet at below-freezing temperatures, it will be stronger than one at room temperature, although the difference probably won't be much. At extremely low temperatures, however, resistance almost disappears and the wires become super-conducting. This fact allows scientists to design uber-powerful magnets, such as the ones at CERN.
- Use Wire with High Conductivity: You can also increase current by upgrading to a wire with a higher conductivity. Copper wire is probably the most conductive wire you can use, but silver wire is even more conductive. Switch to silver wire, if you can afford it, and you'll have a stronger magnet.
Increase the Number of Windings The strength of an electromagnet, also known as its magnetomotive force (mmf), is directly proportional to not only the current (I), but also the number of windings (n) around the solenoid. Increasing the number of windings is probably the easiest way to increase the strength of an electromagnet. Since mmf = nI, doubling the number of windings doubles the strength of the magnet. It's fine to wrap the wires in layers around the solenoid core. The magnetic field is unaffected when wires are in contact with each other.
Use a Ferro-Magnetic Core If you want, you can make an electromagnet by wrapping wires around a used paper towel roll, but if you want a strong magnet, wrap them around an iron core instead. Iron is a magnetic material, and it becomes magnetized when you switch on the current. This gives you, in effect, two magnets for the price of one. Steel contains iron, so it will behave in the same way, although not as strongly. Two other ferro-magnetic metals you might come across are nickel and cobalt.
According to Ampère's Law, the magnetic field around a current-carrying wire is directly proportional to the strength of the current. In other words, increase the current strength and you increase the magnetic field, and there is more than one way to do this:
- Increase the Voltage: Ohm's Law tells you that current is proportional to voltage, so if you're running your electromagnet on a 6-volt battery, switch to a 12-volt one. You can't keep increasing voltage indefinitely, however, because wire resistance increases with temperature until a limiting current is achieved. That brings you to the next option.
- Lower the Wire Gauge: Wire resistance decreases with increasing cross-sectional area, so reduce the wire gauge. Keep in mind that reducing the gauge is synonymous with increasing the wire thickness. If you've wrapped your solenoid with 16-gauge wire, replace it with 14-gauge, and the magnet will be stronger.
- Lower the Temperature: Resistance increases with temperature, so if you can maintain your magnet at below-freezing temperatures, it will be stronger than one at room temperature, although the difference probably won't be much. At extremely low temperatures, however, resistance almost disappears and the wires become super-conducting. This fact allows scientists to design uber-powerful magnets, such as the ones at CERN.
- Use Wire with High Conductivity: You can also increase current by upgrading to a wire with a higher conductivity. Copper wire is probably the most conductive wire you can use, but silver wire is even more conductive. Switch to silver wire, if you can afford it, and you'll have a stronger magnet.
The strength of an electromagnet, also known as its magnetomotive force (mmf), is directly proportional to not only the current (I), but also the number of windings (n) around the solenoid. Increasing the number of windings is probably the easiest way to increase the strength of an electromagnet. Since mmf = nI, doubling the number of windings doubles the strength of the magnet. It's fine to wrap the wires in layers around the solenoid core. The magnetic field is unaffected when wires are in contact with each other.
Use a Ferro-Magnetic CoreIf you want, you can make an electromagnet by wrapping wires around a used paper towel roll, but if you want a strong magnet, wrap them around an iron core instead. Iron is a magnetic material, and it becomes magnetized when you switch on the current. This gives you, in effect, two magnets for the price of one. Steel contains iron, so it will behave in the same way, although not as strongly. Two other ferro-magnetic metals you might come across are nickel and cobalt.
