The bipolar junction transistor circuit is shown below. Which of the following statement is NOT true? UBE + UCE The circuit is npn common emitter configuration. The base-to-collector voltage is negative. The circuit amplify the base current ig. The circuit amplify the voltage UBE.

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**Question:** The bipolar junction transistor circuit is shown below. Which of the following statement is NOT true? **Diagram Explanation:** The diagram shows a standard circuit with a bipolar junction transistor (BJT) in an NPN configuration. The transistor has three terminals: the base (B), collector (C), and emitter (E). The circuit indicates current flow directions as follows: - \( i_B \): Base current entering the base. - \( i_C \): Collector current flowing from collector to emitter. - \( v_{CE} \): Voltage across the collector-emitter terminals. - \( v_{BE} \): Voltage across the base-emitter junction. Two batteries are connected to provide power to the circuit, with one connected in series with the base and the other with the collector. **Answer Choices:** - The circuit is NPN common emitter configuration. - The base-to-collector voltage is negative. - The circuit amplifies the base current \( i_B \). - The circuit amplifies the voltage \( v_{BE} \). [Selected as NOT true]

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The bipolar junction transistor circuit is shown below with \(\beta = 100\).  **Diagram Explanation:** - The diagram represents a bipolar junction transistor (BJT) circuit. - An arrow indicates the base current \(i_B\) entering the transistor. - The collector current \(i_C\) is shown exiting the collector terminal. - The voltages \(v_{BE}\) and \(v_{CE}\) are labeled across the base-emitter and collector-emitter junctions, respectively. **Question:** Which region of operation is the circuit in when \(i_B = 50\mu A\) and \(i_C = 3mA\)? - ○ cutoff - ○ forward active - ○ saturation - ○ reverse active