Build the circuit shown with three resistors, four ammeters and a battery. Determine the values of current (amps) and electric pressure (volts) at the indicated locations. 2. How does the current in each resistor (11, 12, 13) compare to one another and to the current in the battery (In)? 3. How does the electric potential difference across the battery (AVB) compare to the summative electric potential differences of the three resistors (AV₁ +AV₂ + AV₁)? 4. Write the above relationship as an equation: 5. Calculate the ratio of electric potential difference to current for the battery. How does this ratio compare to the resistance values of the resistor? Attempt to write an equation relating the AVB/Is ratio to R₁, R₂, and R, values?

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Build, Measure, Analyze: Build the circuit shown with three resistors, four ammeters and a battery. Determine the values of current (amps) and electric pressure (volts) at the indicated locations. V = 9 I = 0.3 Amps Volts V = 6. Volts 2 I= 0.3 Amps I- 0.3 Amps V = 3 Volts I= _0.3 Amps V = 0 Volts 1. For resistors 1, 2, and 3 and for the battery (B), calculate the electric potential difference and fill in the table below. Electric Potential Element Current (I) Resistance (R) Difference (AV) 9V 0.3A 3V 0.3A 10 Ohms 3V 0.3A 10 Ohms 3V 0.ЗА 10 Ohms 2. How does the current in each resistor (I1, I2, I3) compare to one another and to the current in the battery (Ig)? How does the electric potential difference across the battery (AVB) compare to the summative electric potential differences of the three resistors (AV, +AV2 + AV3)? 3. 4. Write the above relationship as an equation: 5. Calculate the ratio of electric potential difference to current for the battery. AVg/Ig = How does this ratio compare to the resistance values of the resistor? Attempt to write an equation relating the AVp/Ig ratio to R¡, R2, and R3 values.