They run through both evenly! .o.
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.
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.
The speed of an electric signal or current depends on the material, not on the thickness. In metal, it is usually about 2/3 the speed of light in a vacuum. On the other hand, a thin wire has a higher electrical resistance than a thick wire (other things being equal). But this does not affect the speed.
A thin wire will have higher resistance than a thick wire. This is because resistance is inversely proportional to the cross-sectional area of the wire - a thicker wire has a larger cross-sectional area compared to a thin wire, so it offers less resistance to the flow of current.
A thin wire will have greater resistance than a thick wire of the same length. This is because resistance is inversely proportional to the cross-sectional area of the wire. Thinner wires have smaller cross-sectional areas, leading to higher resistance.
They run through both evenly! .o.
No, it moves at the same speed regardless of the wire gauge.
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.
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...
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.
The speed of an electric signal or current depends on the material, not on the thickness. In metal, it is usually about 2/3 the speed of light in a vacuum. On the other hand, a thin wire has a higher electrical resistance than a thick wire (other things being equal). But this does not affect the speed.
Thin wire.
A thin (smaller diameter) wire resist more electricity than a thick (larger diameter) wire. Just like a larger pipe will allow more water to flow than a smaller pipe, a larger wire has more cross-sectional area to allow more current to flow.
yes
A thin wire will have higher resistance than a thick wire. This is because resistance is inversely proportional to the cross-sectional area of the wire - a thicker wire has a larger cross-sectional area compared to a thin wire, so it offers less resistance to the flow of current.
The material will yield when stress reaches a critical value. Stress = Load / Area Thick steel wire is stronger than thin steel wire because there is more cross sectional area in the thick wire. Although the material's strength in load per unit area would be the same, the ultimate load that the wire can sustain would be more in the thick wire. A simple way of looking at it is to imagine a thick wire as a number of thin wires stuck together. If a thin wire can support a mass of 1kg then 2 thin wires can support 2kg. A wire which is twice as thick (twice the cross sectional area) can also support 2kg.
Yes, more current will typically pass through a thick wire compared to a thin wire because the thicker wire offers lower resistance to the flow of electricity. This lower resistance allows more electrons to flow through the wire more easily, resulting in a higher current.