Resistance in a wire varies directly as its length and inversely as the cross-sectional area of the wire. If the cross-sectional area is big, more electricity and hence more energy can pass through it. As an analogy consider two metal tubes each exactly 1 foot long. One of them has a cross-sectional area of 1 square inch. The other has a cross-sectional area of 6 square inches. Imagine also a big water tank with unlimited water in it. Now imagine the two one foot metal tubes are inserted into the side of the water tank at the same height . You will observe that water gushes out more from the 6 square inch tube compared to the water coming out of the 1 square inch tube.
Electric currents through conductors behave in a similar fashion.
Oh, dude, thick copper wire is like the superhero of conducting electricity. It's all about that low resistance life - the thicker the wire, the less resistance it has, which means more current can flow through without getting all tangled up. So yeah, thick copper wire is like the VIP lane for electrons, just breezing through without breaking a sweat.
A current will flow more easily through a thick wire compared to a thin wire because the thick wire has lower resistance, allowing electrons to flow more freely. Thicker wires also have more cross-sectional area for electrons to move through, reducing resistance further.
Because the thick wire is, of course, thicker, it has more area than the thinner wire. This means more electrons can flow through. It's like a highway, the wider it is, the more cars that can pass through.
Thick wires have lower resistance to electricity compared to thin wires because they have more surface area for the current to flow through. This lower resistance allows for more efficient transmission of electricity with less energy loss in the form of heat.
Electricity moves better through thick wire. This is because thick wires have a lower resistance and allows more current to pass through it. Now that might be true but I did an experiment with a thick wire,thin wire,light bulb,and D batteries and the thin wire made the light bulb light up brighter. So, really its probably a thin wire.
A thicker wire reduces electrical resistance (as does a shorter wire), so more energy will be transported if a thick wire connects a generator to its destination.
I don't know but I think it can't because there is more resistance in a thin wire and there is more space for electricity to flow in a thick wire but then again... I could be wrong...
Thin wire.
yes
Oh, dude, thick copper wire is like the superhero of conducting electricity. It's all about that low resistance life - the thicker the wire, the less resistance it has, which means more current can flow through without getting all tangled up. So yeah, thick copper wire is like the VIP lane for electrons, just breezing through without breaking a sweat.
A wire carrying electricity to a load. The wire conducts the energy from a source to a device. That connection in a complete circuit does work.
A current will flow more easily through a thick wire compared to a thin wire because the thick wire has lower resistance, allowing electrons to flow more freely. Thicker wires also have more cross-sectional area for electrons to move through, reducing resistance further.
No, thick wire can carry more current than thin wire because it has lower resistance. Thicker wires have more cross-sectional area, allowing electrons to flow more easily through the wire. This reduces the buildup of heat and minimizes the risk of overheating.
Because the thick wire is, of course, thicker, it has more area than the thinner wire. This means more electrons can flow through. It's like a highway, the wider it is, the more cars that can pass through.
Thick copper wire is good for carrying current because it has a lower electrical resistance compared to thinner wires. Lower resistance results in less energy loss through heat generation, making thick copper wire more efficient for transmitting large amounts of current without overheating.
The situation is similar to a thick versus a thin water hose - water can flow more easily in a thick hose. In the case of a thick wire, there are more places where an electron can go through.
Thick wires have lower resistance to electricity compared to thin wires because they have more surface area for the current to flow through. This lower resistance allows for more efficient transmission of electricity with less energy loss in the form of heat.