The answer depends on the gradient of WHAT!
concentration gradient
The steepness of the gradient, the size of the molecules or ions diffusing, and the temperature of the system all have an impact on the concentration gradient.
The gradient of an acceleration-time graph represents the rate at which the acceleration is changing over time. If the gradient is positive, it indicates an increase in acceleration, while a negative gradient indicates a decrease in acceleration. A horizontal line on the graph would represent a constant acceleration, where the gradient is zero.
A steep gradient will force the water to flow downhill faster.
Yes, in a simplified model, the pressure gradient can be considered as the driving force for gas flow, which overcomes the resistance offered by the system. The greater the pressure gradient, the higher the gas flow rate for a given resistance.
Resistance is defined by R = V/I where V is potential difference and I is current. It is not: change in pd / change in current - which would be the gradient of the curve. Thus to measure the resistance at a particular pd we simply read off the current at that pd and use the equation above. The problem stems from the way resistors are introduced before non-ohmic components, and for ohmic components it may appear that the gradient is being used for the resistance.
According to the IFSTA Essentials of Firefighting 5th Edition, a ground gradient is Produced by an electrical current passing from a downed power line through the ground along the path of least resistance.
1200kcal avg. Depending on pace, gradient and resistance
The porosity and permeability of the soil or rock control the rate of movement of groundwater. Other factors such as hydraulic gradient, hydraulic conductivity, and gradient also influence the speed at which groundwater moves through the subsurface.
find the gradient
The answer depends on the gradient of WHAT!
basically the reciprocal of the original lines gradient is going to be the gradient for the perpendicular line (remember the signs should switch). For example if i had a line with the gradient of 3, then the gradient of the perpendicular line will be -1over3. But if the line had the gradient of -3, then the line perpendicular to that line will have the gradient 1over3.
From Newton's Law, the force due to gravity is:F = -mg, (Force = -mass*accgra)-mg is a constant so taking the gradient will give you zero. Therefore, your answer is zero. Now, if you took the gradient of velocity, your answer would be a negative constant.
these tiles are gradient.
Danube river gradient
(-1.5,0) (1.5,0) what is the gradient?