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

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.

1. A potential difference of 1.20 V will be applied to a 27.00 m length of...

1. A potential difference of 1.20 V will be applied to a 27.00 m length of 18-gauge aluminum wire (diameter = 0.0400 in). Calculate the current. 2. Calculate the magnitude of the current density. 3. Calculate the magnitude of the electric field within the wire. 4. Calculate the rate at which thermal energy will appear in the wire.

A potential difference of 3.00 V will be applied to a 31.00 m length of 18-gauge...

A potential difference of 3.00 V will be applied to a 31.00 m length of 18-gauge platinum wire (diameter = 0.0400 in). Calculate the current (in amps). Calculate the magnitude of the current density. Calculate the magnitude of the electric field within the wire. Calculate the rate at which thermal energy will appear in the wire. Please show units!

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

When a 200 V potential difference is applied to a wire that is 7 m long and has a 0.3 mm radius, the current density is 0.6 kA/m2. What is the resistivity (in Ω∙cm) of the wire?

A copper wire and a tungsten wire have the same length and same potential difference applied...

A copper wire and a tungsten wire have the same length and same potential difference applied to them. (a) What is the ratio of their radii if the current is to be the same? (b) Can a choice of radii be made such that the current density in each is the same?

A wire 2.80 m in length carries a current of 4.20 A in a region where...

A wire 2.80 m in length carries a current of 4.20 A in a region where a uniform magnetic field has a magnitude of 0.240 T. Calculate the magnitude of the magnetic force on the wire assuming the following angles between the magnetic field and the current. (a)60.0 degrees (b)90.0 degrees (c)120 degrees

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.

1. A 120 V potential difference is applied to a space heater whose resistance is 19.8...

1. A 120 V potential difference is applied to a space heater whose resistance is 19.8 Ω when hot. At what rate is electrical energy being transferred to thermal energy? 2. How much thermal energy is produced in 4.2 hours? 3. If electricity costs 10.0 cents per kW·h, how much does it cost to operate the device for 4.2 hours?

A length of copper wire carries a current of 14 A, uniformly distributed through its cross...

A length of copper wire carries a current of 14 A, uniformly distributed through its cross section. Calculate the energy density of (a) the magnetic field and (b) the electric field at the surface of the wire. The wire diameter is 2.6 mm, and its resistance per unit length is 2.7 Ω/km.

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