It depends on the topology of the circuit in which the JFET is operating.
if channel width decreases , the drain current(Id) will also decrease . but , Id will decrease up to a certain limit , when the jfet is in pinch off condition i.e. channel width is tends to zero (Vgs is very high) the Id will be constant then.
Yes its diameter is its width which is constant where ever it's measured inside the circle
When stream discharge increases, more water is flowing through a corridor. To accommodate that, the water will rise in the channel. Depending on the geometry of the channel, the width of wetted water surface may increase as the water fills a different geometry. If the width of the cross-sectional geometry is constant, however, only depth will increase, along with velocity.
river discharge is when the amount of water is measured and the amount that is in the river channel, and at a given point (width,length,depth)
The gate voltage controls the extent of depletion layer and thereby controls the width of the channel. As the width of the channel varies, current also varies. Width of the channel is inversly proportional to drain current.
depends on the width and each width can have up to 3 distinct weights?
I think you want to ask What does Barbiers Theorem says about a figure of constant width. Such a nice theorem establishes that if you have a compact figure C in the plane, that is closed and bounded, and C has constant width w, then the perimeter of C is "pi times w"
A point has no length or width.
No. A square on its side will have a width equal to its side length. On its vertex, its width will be larger: up to sqrt(2) times as large.
The Yucatan Channel has a width of approximately 217 kilometers (135 miles) from Cape Catoche, the northernmost point of the peninsula and Cape San Antonio, the westernmost point of Cuba.
Axiom: "A point has no magnitude".
2.5