You have 10 m of 0.46 mm -diameter copper wire and a battery capable of passing 14 A through the wire. What magnetic field strength could you obtain inside a 2.8cm -diameter solenoid wound with the wire as closely spaced as possible? What magnetic field strength could you obtain at the center of a single circular loop made from the wire?
You have 10 m of 0.46 mm -diameter copper wire and a battery capable of passing...
You have a 5 meter length of copper wire. The diameter of the wire is 0.5 mm Copper has a resistivity of p = 1.70*10^-18 ohms at room temperature. A) What is the resistance of the wire? B)Suppose you connect the wire to a battery, and shape the circuit to one circular loop. Sketch what the magnetic field looks like in this scenario. Include direction of current. C) What is the magnetic field at the center of the loop. The...
A thin (radius r=1.15 mm) long wire is used to build a solenoid: the wire is densely (subsequent turns touching each other) wound around a cylindrical surface of the diameter D=7.8 cm. When electric current I=1.5 A runs in this wire, what is the magnitude Bsol of the magnetic field in the center of the solenoid?: Bsol= ______ G. Let us now compare that magnetic field to the magnetic field B1 that would be produced just by a single circular...
A 100.0-m-long, 1.20-mm-diameter copper wire (resistivity 1.70*1082m) is shaped into a circular coil that consists of 150 identical turns. The coil is then connected to the terminals of a 9.00-V-battery that has internal resistance of 1.50 12. Calculate the strength of the magnetic field (due to the current running through the coil) at the center of the coil.
A solenoid 10 cm in diameter and 630 cm long is made from copper wire of diameter 0.050 cm, with very thin insulation. The wire is wound onto a cardboard tube to make a solenoid. (a) Determine the resistance in the wire. You may take the resistivity of copper to be 1.68 times 10^-8 Ohm m. (b) The number of turns in the wire is ten. Find the current necessary to produce a magnetic field of strength 1.5T. (c) How...
Please solve and explain how its done. A thin (radius r=0.6 mm) long wire is used to build a solenoid: the wire is densely (subsequent turns touching each other) wound around a cylindrical surface of the diameter D=2.3 cm. When electric current 1=4.3 A runs in this wire, what is the magnitude Bsol of the magnetic field in the center of the solenoid?: Bsol= G. Let us now compare that magnetic field to the magnetic field B1 that would be...
A solenoid is wound with a single layer of insulated copper wire of diameter 3.000 mm and has a diameter of 3.000 cm and is 1.800 m long. Assume that adjacent wires touch and that insulation thickness is negligible. 1. How many turns are on the solenoid? 2. What is the inductance per meter (H/m) for the solenoid near its center? R
A 17.0 m -long copper wire, 3.00 mm in diameter including insulation, is tightly wrapped in a single layer with adjacent coils touching, to form a solenoid of diameter 2.90 cm (outer edge). What is the length of the solenoid? What is the field at the center when the current in the wire is 17.0 A ?
A 17.0 m -long copper wire, 2.40 mm in diameter including insulation, is tightly wrapped in a single layer with adjacent coils touching, to form a solenoid of diameter 3.00 cm (outer edge). What is the length of the solenoid? What is the field at the center when the current in the wire is 16.0 A ?
A 15.0 m -long copper wire, 2.60 mm in diameter including insulation, is tightly wrapped in a single layer with adjacent coils touching, to form a solenoid of diameter 2.00 cm (outer edge). A) What is the length of the solenoid? B) What is the field at the center when the current in the wire is 16A.
A 15.0 m -long copper wire, 2.50 mm in diameter including insulation, is tightly wrapped in a single layer with adjacent coils touching, to form a solenoid of diameter 2.20 cm (outer edge). A) What is the length of the solenoid? B) What is the field at the center when the current in the wire is 15.0 A ?