As long as there is a concentration gradient. This is because diffusion occurs which is the net movement of substances from a region of high concentration to a region of low concentration.
A concentration gradient is a difference in concentration across a space. It affects diffusion and osmosis because both of these passive transports move down their concentration gradients, or from an area of high concentration to low concentration.
pressure gradient forces high in low pressure areas?
Diffusion is the movement of particles from an area of high concentration to an area of a lower concentration down a concentration gradient.
On a field map, the winds are the strongest when the isobars are very close together, and the pressure gradient is high.
Going with the concentration gradient is basically the process of diffusion. Molecules going from a low concentration to a high concentration would be going with the concentration gradient. Going against the concentration gradient would be the movement of particles from a high concentration to a low concentration
high winds
no. High concentration to low concentration. The molecules move down the concentration gradient.
A high osmotic gradient between the cortex and the medulla is caused by the running, walking, or jumping of a human person. These simple actions cause the osmotic gradient to rise significantly.
High winds
It is the concentration difference.If H+ concentration high in a place and low in another place,there is a H+ gradient.
low slope and gradient are the same thing - just measured in different units
concentration gradient moves from high to low until equilibrium is reached.
Against the gradient. It requires energy because it's going against the concentration of high to low.
high winds
Regarded as existing through Space, or Time, or from one end of an aqueous Solution to the 'other'; these differences are seen to occur across a GRADIENT. In other related circumstances we are talking about a Spectrum.
It means one side have high concentration.Other side has lower.