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Step of 10 2.013E Refer to Figure E2.13 in the Determine the value of current, i, Since, the op- amp is an ideal, it has infinite input resistance. Therefore, the value of input resistance, i, is Step of 10 Determine the value of voltage, Due to the virtual short circuit between two terminals, the voltage at the inverting terminal and non-inverting terminal are equal. V Therefore, the value of voltage is V Step of 10 Determine the value of current, = mA Therefore, the value of current, i, is mA Step of 10 Determine the value of current, i₂ Since, no current flows in and out of op-amp at input terminal. Therefore, mA Therefore, the value of current, i₂ is mA Step of 10 Determine the value of output voltage, =1+9 Determine the value of output voltage, is 10 V Step of 10 Determine the value of current, 10-0 = = 10 mA Therefore, the value of current, is 10 mA Step of 10 Determine the value of output current, io Apply Kirchhoff's current law at outer node. =(1+10)mA = = mA Therefore, the value of output current, io is Step of 10 Determine the value of voltage gain 10 v, = 10 V/V Therefore, the value of voltage gain, is 10 V/V Step of 10 Determine the value of current gain, 10 mA i, 0 8 Therefore, the value of current gain, is 8 Step 10 10 Determine the value of power gain, L = 1(0) 8 Therefore, the value of power gain, is 8