The circuit shown in the figure below is used to make a magnetic balance to weig

Question

The circuit shown in the figure below is used to make a magnetic balance to weigh objects. The mass m to be measured is hung from the center of the bar, that is in the uniform magnetic field of 1.24 T, directed into the plane of the figure. The battery voltage can be adjusted to vary the current in the circuit. The horizontal bar is 53.9 cm long and is made of extremely light-weight material. It is connected to the battery by thin vertical wires that can support no appreciable tension; all the weight of the suspended mass m is supported by the magnetic force on the bar. A resistor with R = 5.00 ? is in series with the bar; the resistance of the rest of the circuit is much less than this.

(a) Which point, a or b, should be the positive terminal of the battery?

a or b ??   

(b) If the maximum terminal voltage of the battery is 175 V, what is the greatest mass m that this instrument can measure?
------? kg

The circuit shown in the figure below is used to make a magnetic balance to weigh objects. The mass m to be measured is hung from the center of the bar, that is in the uniform magnetic field of 1.24 T, directed into the plane of the figure. The battery voltage can be adjusted to vary the current in the circuit. The horizontal bar is 53.9 cm long and is made of extremely light-weight material. It is connected to the battery by thin vertical wires that can support no appreciable tension; all the weight of the suspended mass m is supported by the magnetic force on the bar. A resistor with R = 5.00 ? is in series with the bar; the resistance of the rest of the circuit is much less than this. (a) Which point, a or b, should be the positive terminal of the battery? a or b ?? (b) If the maximum terminal voltage of the battery is 175 V, what is the greatest mass m that this instrument can measure? ------? kg

Explanation / Answer

from right hand rule if force on bar is to be acted on upward direction the current should flow from left to right

so "a" should be the positive terminal of the battery

force = ILB

by ohm's law

V = IR

175 = I * 5

I = 35 A

force = 35 * 1.24 * 0.539

m * g = 23.3926

m = 2.387 kg

the greatest mass m that this instrument can measure = 2.387 kg

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