Answer:
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Explanation:
Let's call V the voltage provided by the battery in the circuit. M is the multimeter (let's call [tex]R_M[/tex] its internal resistance) and R indicates the resistance of the light bulb.
We know that the meter's internal resistance is 1000 times higher than the bulb's resistance:
[tex]R_M = 1000 R[/tex] (1)
Both the meter and the bulb are connected in parallel to the battery, so they both have same potential difference at their terminals:
[tex]V_M = V_R[/tex]
Using Ohm's law, [tex]V=RI[/tex], we can rewrite the previous equation as:
[tex]R_M I_M = R I_R[/tex]
where
[tex]I_M[/tex] is the current in the meter
[tex]I_R[/tex] is the current in the bulb
Using (1), this equation becomes
[tex](1000 R) I_M = R I_R \rightarrow I_M = \frac{I_R}{1000}[/tex]
so, the current in the meter is 1000 times less than through the bulb.
