Physics Experiment 9 Stpm Sem 2 -

Here, ( V_0 ) is the initial voltage, ( R ) is resistance, ( C ) is capacitance, and ( t ) is time. The product ( RC ) is known as the , representing the time required for the voltage to fall to approximately 36.8% of its initial value. In this experiment, students verify this relationship by measuring voltage at regular time intervals and plotting a semi-logarithmic graph to extract τ. This experiment reinforces Kirchhoff’s laws and introduces the concept of transient behavior—crucial for understanding filters, timing circuits, and signal processing.

In conclusion, Physics Experiment 9 of STPM Semester 2 successfully demonstrates the exponential discharge of a capacitor through a resistor. By measuring voltage decay and determining the time constant, students not only verify a core physical law but also develop practical competencies in circuit assembly, time-based measurement, and error analysis. The experiment reinforces that physics is not merely a collection of formulas but an empirical science where theory and measurement must align. Mastery of such foundational experiments prepares students for more complex electronics and solid-state physics in university. physics experiment 9 stpm sem 2

A capacitor stores electrical energy in an electric field. When a charged capacitor discharges through a resistor, the potential difference ( V ) across the capacitor does not drop instantly to zero. Instead, it follows an exponential decay described by the equation: Here, ( V_0 ) is the initial voltage,