A. capacitor in parallel with contacts
B. capacitor in series with each contact
C. resistance in line
D. none of the above
Electrostatics
Electrostatics
A. The leakage resistance of ceramic capacitors is generally high
B. The stored energy in a capacitor decreases with reduction in value of capacitance
C. The stored energy in a capacitor increases with applied voltage
D. A wire cable has distributed capacitance between the conductors
A. small
B. very small
C. large
D. zero
A. Mica capacitor
B. Electrolytic capacitor
C. Ceramic capacitor
D. Paper capacitor
A. E = D/E
B. E = D2/t
C. E = jtD
D. E= nD2
A. The current in the discharging capacitor grows linearly
B. The current in the dicharging capacitor grows exponentially
C. The current in the discharging capacitor decays exponentially
D. The current in the discharging capacitor decreases constantly
A. Glass
B. Vacuum
C. Ceramics
D. Oil
A. Distance between plates
B. Area of the plates
C. Nature of dielectric
D. Thickness of the plates
A. Paper capacitor
B. Ceramic capacitor
C. Silver plated mica capacitor
D. None of the above
A. metal plates
B. dielectric
C. both (A) and (B)
D. none of the above