It depends. If voltage is drawn along the horizontal axis, then the slope at any point on the graph represents the reciprocal of resistance at that point. If current is drawn along the horizontal axis, then the slope at any point on the graph represents the resistance at that point.
The incremental resistance of a diode is the inverse of the slope of the V-I curve at the operating point.
To reduce slope overload distortion ,the step size must be increased when the slope of the input signal is high. The sawtooth is better able to match the message in the regions of steep slope.
voltageCurrent between the two bases of the UJT sets up a voltage gradient in the semiconductor. When the voltage on the emitter of the UJT rises high enough to forward bias the emitter-base junction at the voltage of the interbase gradient where the emitter is located, the UJT "turns on".
Zener diodes are normally operated in their reverse breakdown voltage curve.
Slope overload distorsion - is caused by use of step size delta which is too small to follow portions of waveform that has a steep slope. Can be reduced by increasing the step size. Granular noise - is caused by too large step size in signal parts with small slope. It can be reduced by decreasing the step size.
The slope of the curve at each point on thegraph is the speed at that point in time. (Not velocity.)
The rate of Change in acceleration.
The rate of change in accelleration.
The gradient of the tangents to the curve.
The slope of the speed/time graph is the magnitude of acceleration. (It's very difficult to draw a graph of velocity, unless the direction is constant.)
mainly the slope of Is curve depends on ; -the slope of investment schedule -the size of the multiplier
You find the slope of the tangent to the curve at the point of interest.
Slope of a Curve A number which is used to indicate the steepness of a curve at a particular point.The slope of a curve at a point is defined to be the slope of the tangent line. Thus the slope of a curve at a point is found using the derivative
If the curve is on the xy-plane, finding an expression for dy/dx will give you the slope of a curve at a point.
You find the tangent to the curve at the point of interest and then find the slope of the tangent.
The slope of a curved line at a point is the slope of the tangent to the curve at that point. If you know the equation of the curve and the curve is well behaved, you can find the derivative of the equation of the curve. The value of the derivative, at the point in question, is the slope of the curved line at that point.
The slope of a curved line changes as you go along the curve and so you may have a different slope at each point. Any any particular point, the slope of the curve is the slope of the straight line which is tangent to the curve at that point. If you know differential calculus, the slope of a curved line at a point is the value of the first derivative of the equation of the curve at that point. (Actually, even if you don't know differential calculus, the slope is still the value of the function's first derivative at that point.)