What is the general expression for the energy stored in a capacitor in terms its capacitance C and voltage V?

Unlock all questions

This demo includes only 20 questions. Upgrade to access hundreds of questions, flashcards, exam simulations, and disable ads.

Full question bankExam simulationsFlashcards

From $9.99Unlock all

Study for the DC Theory LMS Test. Engage with comprehensive flashcards and interactive multiple choice questions, each equipped with helpful hints and clear explanations. Prepare confidently and efficiently for your exam!

Multiple Choice

What is the general expression for the energy stored in a capacitor in terms its capacitance C and voltage V?

When a capacitor is charged, energy is stored in the electric field between its plates. The work needed to add a small amount of charge dq at the instantaneous voltage V is V dq, so the total stored energy is E = ∫ V dq from 0 to the final charge Q. For a capacitor, q = C V, so V = q/C. Substituting and integrating gives E = ∫_0^Q (q/C) dq = Q^2/(2C). Since Q = C V, this becomes E = (1/2) C V^2. This is why the energy stored is proportional to the capacitance and to the square of the voltage.

The other expressions don’t fit: CV has units of charge, not energy; V^2/(2C) would not equal (1/2) C V^2 in general; and I^2 R t represents energy dissipated as heat in a resistor, not the energy stored in a capacitor.

What is the general expression for the energy stored in a capacitor in terms its capacitance C and voltage V?

Study for the DC Theory LMS Test. Engage with comprehensive flashcards and interactive multiple choice questions, each equipped with helpful hints and clear explanations. Prepare confidently and efficiently for your exam!

What is the general expression for the energy stored in a capacitor in terms its capacitance C and voltage V?

Get the latest from Examzify