In a diode, direct current (DC) flows in one direction, from the anode (positive side) to the cathode (negative side), when the diode is forward-biased. This occurs when the anode voltage is higher than the cathode voltage by at least the diode's forward voltage threshold (typically around 0.7V for silicon diodes). When reverse-biased, the diode blocks current flow, allowing minimal leakage, effectively preventing DC from flowing in the opposite direction. Thus, diodes act as one-way valves for electric current.
conducts
#include<iostream.h> main() { int C,D,E; cout<<"Number at location C="; cin>>C; cout<<"Number at location D="; cin>>D; E=C; C=D; D=E; cout<<"New Number At Location C="<<C<<endl; cout<<"New Number At Location D="<<D<<endl; }
I work for the company that makes the NLE. I can't give you the questions but the answers to the 40 questions are: A,D,C,B,B,D,C,A,B,D,C,C,B,A,D,A,A,D,C,B,C,B,D,B,C,D,A,A,A,D,B,A,D,C,C,D,A,B,C,D Good Luck! DO NOT listen to this guy^ he doesnt know the answers and you didn't give him which course like latin 1 or latin 2 or 3
High d or low c
d= c/100; c= c-d*100; c=245 --> d=2, c=45
Liquid Crystal Diode.
Applications of Zener diode: a.)It Regulators. b.)It Controlled Comparators. c.)It Limiters. d.)It is Part in Power Supplies.
wat's d application of trappat diode
conducts
A: They flow.
diode
A zener diode is like a regular diode when connected in forward bias which means it will control the flow of the electricity throughout the circuit. Usually you'd find a zener diode in a reverse bias mode because of its purpose which is it has a breakdown voltage value of 5.6v; this shows that the circuit output voltage will be regulated at the same value of 5.6v. It also has the ability to change its own internal resistance based current flow passing through it helping sustain a fixed voltage of 5.6v. The benefits of a zener diode are that it is a less cost effective voltage regulator, its simplicity is based on the fact it's a diode with two overall purposes. The main purpose of a zener diode is to maintain a fixed voltage; in order for this to happen it must lower or raise its resistance depending on the actual current flowing throughout the circuit. If the current increases the zener diode will raise the resistance in order to maintain the fixed voltage. If the resistance lowers the diode will raise it because the fixed voltage should be at 5.6v, and works in reversed biased.
the water from d dead c dosent flow out.
D. C. Prince has written: 'Satisfaction of radial equilibrium and continuity in the design of axial flow turbomachines'
if you reverse the diode in a half wave rectifier, you would expect the A- Ripple to increase B- output to be less filtered C- out put polarity to be reversed D- output voltage to decrease
(A) The bias battery voltage (B) 0V (C) the diode barrier potentiaol (D) The total circuit voltage
B - Dynamic resistance