No. Root pressure can move water a short distance up the xylem because of the lower water potential of the xylem in comparison to the water potential in the surrounding cells
Slope of time Vs distance graph gives the inverse of velocity.
Pressure effected by the volume of substance being pushed through. For instance, the longer the hose, the more water being pushed through=greater pressure. The shorter the distance the less water being pushed through=less pressure.
Pushing water through a hose, the pressure at either end is equal. This is not true with blood pressure. The blood pressure in the body changes based on distance from the left ventricle due to slowdown caused by curves, friction and variation of vessel size.
It is a difference in pressure
distance vs time suggests velocity while distance vs time squared suggests acceleration
distance vs time suggests velocity while distance vs time squared suggests acceleration
distance vs time suggests velocity while distance vs time squared suggests acceleration
distance vs time suggests velocity while distance vs time squared suggests acceleration
No. Root pressure can move water a short distance up the xylem because of the lower water potential of the xylem in comparison to the water potential in the surrounding cells
Slope of time Vs distance graph gives the inverse of velocity.
Probably. You should also look into getting a dictionary to look up the correct spelling of Fahrenheit.
Pressure effected by the volume of substance being pushed through. For instance, the longer the hose, the more water being pushed through=greater pressure. The shorter the distance the less water being pushed through=less pressure.
take a bottle and make two holes on it then pour water in it you will see that two jet of water flowing from the holes the water lands equal distance from the bottle this how you can say that there is equal pressure the container
A barograph is a device that monitors pressure. It plots pressure vs time. Units can be kPa vs hr.
land vs water is land against water
Pushing water through a hose, the pressure at either end is equal. This is not true with blood pressure. The blood pressure in the body changes based on distance from the left ventricle due to slowdown caused by curves, friction and variation of vessel size.