1. The electron drift speed in a 3.00-mm-diameter gold wire is 6.00 × 10−5 m/s. How...

If 2.91×1020 electrons flow through a cross section of a 4.43 mm diameter Gold wire in...

If 2.91×1020 electrons flow through a cross section of a 4.43 mm diameter Gold wire in 5.75 s, then what is the drift speed of the electrons? (The density of conduction electrons in Gold is n = 5.90×1028 1/m3.) (in mm/s)

a) Gold has a conduction electron density of about 5.90 x 10 28/m-3. A gold wire...

a) Gold has a conduction electron density of about 5.90 x 10 28/m-3. A gold wire is 50.0 m long and 3.00 mm in diameter. If 12.0 V is applied across the two ends of the wire, what will be the resulting current in amperes. b) Estimate the drift speed of the electrons in part a.

Assume that a gold wire 0.32 mm in diameter carries one mobile electron per atom. The...

Assume that a gold wire 0.32 mm in diameter carries one mobile electron per atom. The mass density and the molecular weight of gold are 1.89×104 kg/m3 and 197.0 g/mol, respectively. Calculate the drift speed of the electrons in this wire when it carries a current of 2.44 A. (ans. 3.28×10-3 m/s)

Consider a copper wire with a diameter of 1.67 mm. (a) What is the drift speed...

Consider a copper wire with a diameter of 1.67 mm. (a) What is the drift speed of the electrons in the copper wire when a current of 14.0 A flows through it? Assume that each copper atom contributes one free electron to the metal. The density of copper is 8.92 g/cm3. (b) How does this drift speed compare to the random rms speed of an electron at 20.0°C? To make this comparison, determine the random rms speed of an electron...

Find the drift speed of electrons in an iron wire at 30.0 degrees Celsius and of...

Find the drift speed of electrons in an iron wire at 30.0 degrees Celsius and of cross section 2.00 x 10^-6 m^2 which carries 5.0 A of current. Compare this speed with the speed of electron gas in the wire.

How many conduction electrons are there in a 4.00 mm diameter gold wire that is 30.0...

How many conduction electrons are there in a 4.00 mm diameter gold wire that is 30.0 cm long? and How far must the sea of electrons in the wire move to deliver -21.0 nC of charge to an electrode?

A 7.2 mm diameter conducting wire carries a current of 3.8 A. If the density of...

A 7.2 mm diameter conducting wire carries a current of 3.8 A. If the density of the conduction electrons (free electrons) in the wire is n=19.6×1028m-3, determine the magnitude of the drift velocity of the electrons within the wire. Express your answer in units of μm/s (micrometers per second) using one decimal place. Take the charge of the electron e=1.6×10-19C.

1-How many electrons flow through a point in a wire in3.00 s if there is a...

1-How many electrons flow through a point in a wire in3.00 s if there is a constant current of I = 4.00 A ? 2-The current of an electron beam has a measured current of I = 50.00 μA with a radius of 1.00 mm2 . What is the magnitude of the current density of the beam? 3-Consider a wire of a circular cross-section with a radius of R = 3.00 mm . The magnitude of the current density is...

Part A How many conduction electrons are there in a 1.00 mm diameter gold wire that...

Part A How many conduction electrons are there in a 1.00 mm diameter gold wire that is 50.0 cm long? Part B How far must the sea of electrons in the wire move to deliver -24.0 nC of charge to an electrode? Express your answer with the appropriate units.

The electron drift speed is 2 x 10-4 m/s in metal with a mean free time...

The electron drift speed is 2 x 10-4 m/s in metal with a mean free time between collisions of 5 x 10-14 s. Draw a picture of the metal wire What is the electric field strength in the wire? I WANT TO KNOW SOLVING PROCESS