You have a 0.600-m-long copper wire. You want to make an N-turn current loop that generates a 1.40 mT magnetic field at the center when the current is 1.50 A . You must use the entire wire. What will be the diameter of your coil?
You have a 0.600-m-long copper wire. You want to make an N-turn current loop that generates...
You have a 0.800-m-long copper wire. You want to make an N-turn current loop that generates a 0.500 mT magnetic field at the center when the current is 0.700 A . You must use the entire wire. What will be the diameter of your coil?
You have a 1.5 m long copper wire. You want to make an N-turn current loop that generates a 2.3 mT magnetic field at the center when the current is 2.4 A . You must use the entire wire. What will be the diameter of your coil?
Constants You have a 1.2 m long copper wire. You want to make an N-turn current loop that generates a 1.5 mT magnetic field at the center when the current is 2.0 A . You must use the entire wire. QUESTION 24.20. Constants ▼ Part A You have a 1.2 m long copper wire. You want to make an N-turn current loop that generates a 1.5 mT magnetic field at the center when the current is 2.0 A·You must use...
Suppose you have a 2.0-m-long copper wire. You want to make a current loop with N turns that generates a 1.0 mT magnetic field at the center of the loop when the current in the wire is 1.0 A. You must use the entire wire. What will be the diameter of the wire?
Item 4 4 of 13 Constants Part A You have a 1.3 m long copper wire. You want to make an N-turn current loop that generates a 1.3 mT magnetic field at the center when the current is 2.3 A. You must use the entire wire. What will be the diameter of your coil? Express your answer with the appropriate units. LA dValue Units Submit Request Answer
A single-turn wire loop 10 cm in diameter carries a 14 A current. It experiences a torque of 2.5×10−2 N⋅m when the normal to the loop plane makes a 37 ∘ angle with a uniform magnetic field. What is the magnetic field strength? B = ____________ mT
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.
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...
2. An infinitely long wire carries a current 1-10A. A 5-turn loop of radius a = 2 cm is placed with its center at a distance d = 5 cm from the wire. The wire and the loop all lie in the same plane. (a) Find the magnetic field intensity at the center of the loop due to the current in the long wire alone. (b) Estimate the mutual inductance of the wire and the loop (c) What should be...
A 1.69 m long wire carrying a current of 1.02 A forms a 5-turn loop in the shape of an equilateral triangle. If the loop is placed in a constant uniform magnetic field with a maanitude of 0.481 T, determine the maximum torque that acts on it.