Your question cannot be answered, as we do not know what type of wire the copper is coated on, nor do we know how long the wire is.
But, let's assume that it is solid copper # 10 wire 100 feet long. The voltage drop is zero when there is no electricity flowing through it. (That is, 'current', measured in Amperes, or just Amps.)
If there is, say, 1 Ampere of current, the voltage drop is close to 1/10th Volt in the 100 feet.
If there is, say, 15 Amperes of current, the voltage drop is a tiny bit over 1-1/2 Volts.
If you double the wire's length, the voltage drop also doubles, and if the current doubles, the voltage drops also doubles. Or, as in my example, above, if the current rises by 15 times, then the voltage drop rises by 15 times.
it is because iron is solid and can easily sublimes in aqueous copper sulphate
Copper, like most metals, is solid during room temperature.
The most common state of matter for copper is solid. Copper is a metallic element that is typically found in its solid form at room temperature.
Brass : made of zinc in copper Steel: made of carbon in iron
It depends on the temperature, however, at standard and room temperature, copper is a solid.
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it is because iron is solid and can easily sublimes in aqueous copper sulphate
Copper is a metal & solid
The mummies of Egypt were coated in solid gold.
Copper Sulphate is a blue crystalline solid.
Copper Sulphate is a powder at room temperature, therefore it is a solid.
Copper carbonate is a solid compound at room temperature.
Copper sulfate in the solid form are crystals
Yes, copper is a solid solution of copper atoms in a copper matrix. It forms a solid solution when other elements, such as silver or nickel, are alloyed with copper as well.
Copper is a solid at room temperature.
The chemical reaction between solid copper and solid sulfur results in the formation of solid copper (I) sulfide. This is a synthesis reaction in which copper and sulfur combine to form a new compound with a different chemical composition. The reaction is represented by the chemical equation: Cu + S -> Cu2S.
Yes, copper(II) oxide is a solid at standard and room temperature. Copper(I) oxide is also a solid in these conditions as well.