At t = t 0 the voltage across a certain capacitance is zero. A pulse of current flows through the capacitance between t 0 and t 0 + Δ t , and the voltage across the capacitance increases to V f . What can you say about the peak amplitude and area under the pulse waveform (i e current versus time)? What are the units and physical significance of the area under the pulse What must happen to the peak amplitude and area under the pulse as Δ t approaches zero, assuming that V f remains the same?
At t = t 0 the voltage across a certain capacitance is zero. A pulse of current flows through the capacitance between t 0 and t 0 + Δ t , and the voltage across the capacitance increases to V f . What can you say about the peak amplitude and area under the pulse waveform (i e current versus time)? What are the units and physical significance of the area under the pulse What must happen to the peak amplitude and area under the pulse as Δ t approaches zero, assuming that V f remains the same?
At
t
=
t
0
the voltage across a certain capacitance is zero. A pulse of current flows through the capacitance between
t
0
and
t
0
+
Δ
t
, and the voltage across the capacitance increases to
V
f
. What can you say about the peak amplitude and area under the pulse waveform (i e current versus time)? What are the units and physical significance of the area under the pulse What must happen to the peak amplitude and area under the pulse as
Δ
t
approaches zero, assuming that
V
f
remains the same?
A capacitor "C", an inductor "L" and a switch "S" are connected in series. When the switch is open, the plate to the left of the capacitor has charge "Qo". The switch is closed the load and current vary sinusoidally with time. Represent graphically the load "Qo" and the intensity of current "I" as a function of time "t", and explain why the current leads the load by a phase difference of 90°.
Find the capacitance if correct will upvote otherwise i will dislike...
please solve value of Capacitor with 0.1V Ripple. And draw output ripple waveform. Explain it one by one for me thanks..
Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, electrical-engineering and related others by exploring similar questions and additional content below.
Inductors Explained - The basics how inductors work working principle; Author: The Engineering Mindset;https://www.youtube.com/watch?v=KSylo01n5FY;License: Standard Youtube License