When a 200 V potential difference is applied to a wire that is 7 m long...

A 2-V potential difference is maintained across a 2m length wire that has a cross-section area...

A 2-V potential difference is maintained across a 2m length wire that has a cross-section area of 8x10-7 m2. If the wire is made of material that has a resistivity of 8 × 10–8 Ω ⋅ m, what is the current (in A) in the wire? 45                          50               10                        35                          27.5

A wire 3.31 m long and 6.32 mm in diameter has a resistance of 12.1 mΩ....

A wire 3.31 m long and 6.32 mm in diameter has a resistance of 12.1 mΩ. A potential difference of 27.8 V is applied between the ends. (a) What is the current in amperes in the wire? (b) What is the magnitude of the current density? (c) Calculate the resistivity of the material of which the wire is made.

using only 3 sig figs please A wire 3.60 m long and 8.20 mm in diameter...

using only 3 sig figs please A wire 3.60 m long and 8.20 mm in diameter has a resistance of 15.2 mΩ. A potential difference of 22.1 V is applied between the ends. (a) What is the current in amperes in the wire? (b) What is the magnitude of the current density? (c) Calculate the resistivity of the material of which the wire is made

When 20 Vis applied across a wire that is 10m long and has a 0.30 mm...

When 20 Vis applied across a wire that is 10m long and has a 0.30 mm radius, the current is 10 A. a) Find the resistivity of the wire. b) What material is the wire most likely made from

A spool of iron wire 230 m long and with a diameter of 0.480 mm is...

A spool of iron wire 230 m long and with a diameter of 0.480 mm is at 20.0°C. For iron, the resistivity is 10.0 ✕ 10−8 Ω · m and the temperature coefficient of resistivity is 5.00 ✕ 10−3 (°C)−1. (a) What is the magnitude of the electric field (in V/m) in the wire if it carries a current of 0.550 A? V/m (b) What is the electric power (in W) delivered to the spool while it carries a current...

(8c26p58) A potential difference of 4.20 V will be applied to a 35.00 m length of...

(8c26p58) A potential difference of 4.20 V will be applied to a 35.00 m length of 18-gauge silver wire (diameter = 0.0400inches). Calculate the current. Calculate the current density. Calculate the electric field. Calculate the rate at which thermal energy will appear in the wire.

A potential difference of 1.80 V will be applied to a 43.00 m length of 18-gauge...

A potential difference of 1.80 V will be applied to a 43.00 m length of 18-gauge silver wire (diameter = 0.0400 in). Calculate the current. Calculate the magnitude of the current density. Calculate the rate at which thermal energy will appear in the wire.

A straight, cylindrical wire lying along the x axis has a length of 0.616 m and...

A straight, cylindrical wire lying along the x axis has a length of 0.616 m and a diameter of 0.6 mm. It is made of a material described by Ohm's law with a resistivity of ρ = 4.72 ✕ 10−8Ω· m. Assume a potential of 4.85 V is maintained at the left end of the wire at x = 0. Also assume V = 0 at x = 0.616 m. Find the current density (in A/m2) in the wire.

There is a potential difference of 1.1 V between the ends of a 10 cm long...

There is a potential difference of 1.1 V between the ends of a 10 cm long graphite rod that has a cross-sectional area of 1.3 mm2. The resistivity of graphite is 7.5 10-6 Ω-m. (a) Find the resistance of the rod. (b) Find the current. (c) Find the electric field inside the rod.

A 3.00 m long copper wire has a 1.20 m long section with a 1.60 mm...

A 3.00 m long copper wire has a 1.20 m long section with a 1.60 mm diameter and a 1.80 m long section with a 0.80 mm diameter. The electric current is 2.5 mA (milli Amps) in the 1.60 mm diameter section. The electrical resistivity of copper is 1.68 x 10^-8 Ω m. a) (10pts) What is the current density in the 1.60 mm diameter section? b) (10pts) What is the magnitude of the electric field in N / C...