Please could you complete this electronics question about Circuit Analysis. 

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EXTERNAL POWER 9V DC J1 X1-1 O X1-2 O X1-3 O C7 100nF +5V OV +5V VOUT OV TEMPERATURE SENSOR EXTERNAL CONNECTOR 와 OV OV D1 1N4004 KH C2 100nF C3 330uF POWER SUPPLY DECOUPLING PLACE ACROSS IC3 +5V IC1 MCP9700-E TO VDD VOUT GND TEMPERATURE SENSOR 10² TP6 X OV ον C1 100nF VOUT HH 와 OV www OV TP1 TP5 R4 1K5 LED1 POWER RED INDICATOR R3 8K2 www C8 100nF VIN R1 10K www OV NON-INVERTING AMPLIFIER +5V OV IC3A MCP602P R2 39K ww IC3B MCP602P OP-AMP BUFFER TP3 X HH OV V AMP = 100nF TP2 X C9 V BUFF 2HH C10 100nF C6 100nF HH OV +5V HI C4 100nF OV TP4 X co C5 330uF V AMP V BUFF SDA SCL VIN OV 32.15 J2.14 32.13 32.12 J2.11 J2.10 J2.9 32.8 32.7 J2.6 J2.5 J2.4 J2.3 32.2 J2.1 SDA SCL +5V OV D13/SCK 3V3 AREF AO A1 A2 A3 A4 A5 A6 A7 5V RST.2 GND.2 VIN USB 4 3 2 ARDUINO-NANO-3.0 SDA SCL VCC GND Figure 1. Circuit diagram of the temperature measure system. D12/MISO D11/MOSI D10 D9 D8 D7 D6 D5 M1 U$1 ‒‒‒ GND.1 RST.1 DO/RX D1/TX D4 D3 D2 A J1.15 RANGE SELECT J1.14 LINK J1,13 31.12 +5V J1.11 31.10 OLED 128x64 J1,9 31.8 J1.7 J1,6 J1.5 J1.4 DISPLAY-OLED-128X64-12C J1,3 J1,2 J1.1 OV Note: Has inbuilt 4K7 Pull-up resistors 29-Sep-21 2:11 PM J2 1

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The circuit is designed for two different measurement ranges which can be switched using the 'Range Selection' terminal. By connecting Pins 2 and I at the 'Range Selection terminal, the output of the temperature sensor is amplified by a non-inverting op-amp amplifier before fed into the Arduino Nano. By studying the circuit diagram (Figure 1), (a) the gain of the non-inverting amplifier is: (b) the acceptable output voltage range of the sensor is: (c) the amplified output voltage range of the sensor is: (d) the range of temperature measurement is: