What is the size of the force acting on a copper wire with a magnetic flux density of 3.6 x 10-2 t acting at right angles to the wire of length 19 m and current of 0.043 a? round your answer to 2 significant figures.
What Is The Size Of The Force Acting On A Copper Wire With A Magnetic Flux Density Of 3.6 X 10-2 T Acting At Right Angles To The Wire Of Length 19 M And Current Of 0.043 A? Round Your Answer To 2 Significant Figures.
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What Is The Size Of The Force Acting On A Copper Wire With A Magnetic Flux Density Of 3.6 X 10-2 T Acting At Right Angles To The Wire Of Length 19 M And Current Of 0.043 A? Round Your Answer To 2 Significant Figures.. Calculate the magnitude of the force acting on the copper wire due to the magnetic field. B=f/il where f = force.
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When the charges pass through uniform magnetic field they experience a magnetic force. The size of the force acting on the copper wire is 2.8 n. B=f/il where f = force.
Calculate The Force Using The Formula:
F = 0.414 n explanation: Find out the definition of magnetic flux density and the effect of angle and parallel. Given that, magnetic flux density, the length of the wire, l = 24 m current, i = 0.48 a we need to find the force acting on the wire.
The Total Magnetic Force On The Wire Is Calculated By.
The size of the force acting on the copper wire is 2.8 n. Round your answer to 2 significant figures. A current of 0.87 a flows in a wire of length 1.4 m placed at 30° to a magnetic field of flux density.
F = Bil, Where B Is The Magnetic Flux Density, I Is The.
The formula for the force is. A copper rod moves within a magnetic field when current is passed through it. Calculate the magnitude of the force acting on the copper wire due to the magnetic field.
B=F/Il Where F = Force.
When the charges pass through uniform magnetic field they experience a magnetic force.
