This is probably the I-V characteristic: Apply a voltage to one terminal of the component, the current through the component is then recorded; this is done for varying values, and is plotted out on a graph. For transistors, this shows where the "linear operation" region is; for diodes, this shows the "turn on" voltage. Such characteristics will be in the data sheets for whatever component you're using.
Block DC components and pass AC component
the magnetizing curve is the relation b/w air gap flux and the field winding current armature EMF. the resulting curve is called magnetizing characteristics or open circuit characteristics. at any speed by recognizing that the induced emf is directly proportional to the speed
P = I x E (where E is voltage) so it's linear. ======================== The power dissipated by a component or circuit depends not only on the voltage across the load, but also on the characteristics of the load itself. If the resistance/impedance of the load is constant, then P = E2/R so it's proportional to the square of voltage.
A VOM will never do it. A curve tracer Will check all the parameters. Actually that goes for any other component you want to test.
c curve & d curve mcb difference
The three characteristics of a supply curve are the slope, shift, and the curve's position. Together they help determine supply and demand trends.
The three major characteristics of an indifference curve are: 1. They are negatively sloped 2. They are convex to the origin 3. Indifference curve cannot be intersected
The classic "S" shaped curve that is characteristic of logistic growth.
increase
A passive component does not interact as an active component like an amplifier
A verticle demand curve, where a change in price does not effect quantity.
i was suppose to get the anwer from yuo
An arc or parabolic curve.
The Horizontal Component of the normal force.
yes
what letter is used to refer to the characteristic shape of the logistic growth curve
S