Under the humid condition the rate of transpiration decreased, this is due to the fact that the water potential of the air surrounding the leaf was increased by the mist, this in turn minimized the gradient of water potential between the leaf and its surrounding environment, thus the process of transpiration lessened to some extent. This occurred because the rate of transpiration decreases proportionally to the amount of humidity in the air. Under windy conditions the rate of transpiration showed an increase, this is due to the fact that wind removes water vapor from the leaf's surrounding, resulting in a broader concentration difference between the leaf and its outer environment, therefore the leaf possessed a higher water potential as compared to its outside environment, and a more rapid loss of water occurred through the stomata.
Mass, gravity, height.
The mass, height and the force of gravity at the location.
Yes. Mass is one of the variables (mass, gravity and height) for which gravitational potential energy is the product (meaning the multiplication of), so increasing mass will increase the gravitational potential energy in direct proportion.
Transpiration regulates how much water moves through the plant. In hot dry air, more water will evaporate out of the stomates resulting in a higher transpiration rate. Light, or temperature, can therefore increase transpiration. Wind will evaporate more water from the leaf's boundary layer resulting in a higher transpiration rate. Humidity or moisture will lower transpiration because less water will evaporate out of the stomates.
Location can affect a microclimate. Anything from the gradient of the landscape to the immediate environment can affect a microclimate. Those located in urban centers may experience more heat as a result of concrete and asphalt which absorb sunlight and heat up the area. Conversely, microclimates located near large bodies of water will benefit from the cooling effect.
Hypothermia is a condition that has the potential to affect everyone. This is a condition that happens when the body gets too cold for too long.
The potential difference accross the resistor changes mainly due to gradual increase accumulation of electrons in the lower potential region which will in turn affect the potential gradient as the current flows through the resistor
Not if the gradient calculation is done correctly.
The higher the gradient, the more steeper the line will be.
The steeper the gradient, the higher the velocity of flow.
The gradient of a stream affects the speed of the water as it moves downstream. The steeper the gradient, the faster the water moves.
Osmosis is a passive transport process. Therefore it can only go with the concentration gradient.
The steeper a river's gradient, the faster and greater the erosive power is.
A comorbidity is a concurrent conditionthat has the potential to affect the treatment of the first-listed diagnosis
i have pressure right now
it is gradient, discharge and load.
The gradient of a river is mostly flat or downhill which means that as the water flows it is affected by gravity. The steeper the gradient goes downhill, the more gravity will affect the water which will make the water flow faster (increases the velocity).