Diagram show biasing by feedback resistor method.Calculate (i) collector current, and (ii) collector voltage, Given that B = 100 and transistor is made of sillicon.

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**Transcription of Circuit Diagram:** This image is a schematic representation of a single-stage transistor amplifier circuit. - **Power Supply:** - \( V_{CC} = +15V \) - **Components:** - **Transistor:** - A bipolar junction transistor is depicted with three terminals: the base, the collector, and the emitter. The arrow indicates the direction of conventional current flow. - **Resistors:** - \( R_B = 200 \, \text{k}\Omega \) - Connected to the base of the transistor, controlling the base current \( I_B \). - \( R_C = 1 \, \text{k}\Omega \) - Connected to the collector, influencing the collector current \( I_C \). - **Currents:** - \( I_B \): The base current entering the transistor. - \( I_C \): The collector current flowing from the collector to the emitter. - \( I_E \): The emitter current, directed from the emitter to the ground. The diagram shows how a small base current \( I_B \) controls a larger collector current \( I_C \), exemplifying the fundamental principle of amplification in transistors.

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**Educational Transcript:** **Title: Understanding Transistor Biasing Using the Feedback Resistor Method** **Introduction:** This section illustrates transistor biasing by the feedback resistor method. You will learn how to calculate the following parameters for a silicon transistor with a given beta (β) value. **Calculations Required:** 1. **Collector Current (Ic):** - Determine the current flowing through the transistor's collector terminal. This is a crucial factor in analyzing the transistor's operation. 2. **Collector Voltage (Vc):** - Identify the voltage across the collector, another vital parameter for assessing the transistor performance. **Given:** - Beta (β) = 100 - Transistor Material: Silicon **Further Explanation:** In this exercise, you'll apply the given parameters with the feedback resistor method to evaluate the operational characteristics of the transistor. This helps in understanding the practical application of transistor biasing in electronic circuits.