9. Using the relationship for AV₁, AV2, and AVT, and using Ohm's law, mathematically derive the relationship between R₁, R2, and Req (the equivalent resistance for to the series combination of R₁ and R₂). Show your work below. 10. Using your equation, calculate Req from the R₁ and R2 values measured with the multimeter. Compare it to the value of Req your measured directly with the multimeter (across the battery). Now, find the percent difference. Did your equation work?
9. Using the relationship for AV₁, AV2, and AVT, and using Ohm's law, mathematically derive the relationship between R₁, R2, and Req (the equivalent resistance for to the series combination of R₁ and R₂). Show your work below. 10. Using your equation, calculate Req from the R₁ and R2 values measured with the multimeter. Compare it to the value of Req your measured directly with the multimeter (across the battery). Now, find the percent difference. Did your equation work?
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Transcribed Image Text:**9.** Using the relationship for ΔV₁, ΔV₂, and ΔVₜ, and using Ohm’s law, mathematically derive the relationship between R₁, R₂, and R_eq (the equivalent resistance for the series combination of R₁ and R₂). Show your work below.
**10.** Using your equation, calculate R_eq from the R₁ and R₂ values measured with the multimeter. Compare it to the value of R_eq you measured directly with the multimeter (across the battery). Now, find the percent difference. Did your equation work?
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