Final answer:
Without additional details about the circuit, such as input voltage and the transistor's configuration, we cannot calculate the output voltage (Vce) of the BJT circuit.
Step-by-step explanation:
The question asks us to calculate the output voltage (Vce) of a Bipolar Junction Transistor (BJT) circuit, which acts as an electronic switch. The base voltage on the transistor is an important aspect of this calculation because it determines how much current flows through the transistor from the emitter to the collector. However, because the question does not provide enough details like input voltage or the arrangement of the resistors and the transistor in the circuit (whether it's a common emitter or common collector, etc.), and whether the transistor is in saturation or cutoff state, we cannot calculate Vce with the information provided. To accurately determine Vce, we need additional circuit specifics including the voltage supply and the transistor's configuration in the circuit. In a common emitter configuration with the transistor saturated (fully on), Vce would be close to zero, while in cutoff (fully off), Vce would be approximately equal to the supply voltage minus any voltage drop across the collector resistor, if present.