In what?
For a specific voltage, current flow is inversely proportional to resistance.
A JFET (Junction Field Effect Transistor) can be used as a two-terminal current source by operating it in the saturation region. By applying a fixed gate-source voltage (Vgs) that is less than the threshold voltage, the JFET allows a constant drain-source current (Id) to flow, which is relatively independent of the drain-source voltage (Vds) due to its high output resistance. This configuration effectively isolates the current source from any variations in the load, making it a reliable current source for various applications.
The percentage of doping in emitter is higher than collector region.hence large current is flow to emitter than collector.
An ideal voltage source has zero internal resistance so that the voltage stays constant with any load current. A practical voltage source should have less than 5% voltage drop at the rated load current.
Drain to source saturation current refers to the maximum current that can flow from the drain to the source terminal of a field-effect transistor (FET) when it is in saturation mode. In this state, the transistor is fully on, and the current is primarily controlled by the gate voltage rather than the drain-source voltage. This condition occurs when the drain-source voltage exceeds a certain threshold, allowing the device to operate efficiently in amplification or switching applications. Understanding this current is crucial for designing circuits that utilize FETs effectively.
Source mode at output provides safety than sink at output
A marble will sink faster in water than in oil because water has a higher density than oil. The higher the density of the liquid, the faster an object will sink in it.
Objects with densities higher than water will sink. Density is the measure of how much mass is contained in a given volume, so objects with higher densities will displace less water than their own mass which causes them to sink.
Silicon will sink in water because it has a higher density than water.
Phosphorus will sink in water because it has a higher density than water.
An apple will sink in water because it is denser than water. The density of an apple is higher than water, so it will displace water equal to its weight, causing it to sink.
Iron sulfide (FeS) has a higher density than water, so it will sink in water.
if the density of the object was higher than 1 then it will sink if less than 1 it will float in water....
Absolutely. The first rule: Source voltage should be equal to the device voltage. The second rule: Source current sould be higher than the cumulative of the device's current.
Coins sink because they lack the buoyancy to float. Their density is higher than that of the water and their shape does not allow them to displace enough water to be buoyant before sinking.
The density of a penny is higher.
No, nickel does not float in water because it has a higher density than water. Any object with a higher density than water will sink.