If there was less H20 molecules in the cell than outside
Under similar conditions there would be no significant difference
Non-metal? Water would be one.
Under normal conditions water flow in = water flow out. When abnormal conditions such as previously wet ground, no ground cover vegetation, an impediment to water flow in the valley exist the design conditions are exceeded and water backs up creating flood conditions.
it would have a mass of 100grams ------------------------------------------------------------------------ One kilogram (oe 1000 grams)
Under normal conditions the volume would be 123.67 cubic centimeters as the density of water is 1 gm per cc
I can't think of any reason it would "burst" under those conditions.
The mass of standard water in standard conditions is 1 gram per cm3, and 1 kg per liter.
under what conditions an econoy would be operating inside its production possibility frontier?
There would be no net movement of water across the membrane because the amount of solute inside and outside of the membrane is equal.
...then your name would be spelt either 'Water vapor' or 'water vapour'. Your pet name would be aqueous vapor and you would be the gas phase of water. You would be one state of the water cycle within the hydrosphere. You would have been produced by the evaporation or boiling of liquid water or from the sublimation of ice. and under normal atmospheric conditions, you would be continuously generated by evaporation and removed by condensation.
On a large scale you would call the movement a tide. On a small scale you would call the movement a wave.
A plant will take in more water than it loses by transpiration under conditions of high humidity, cooler temperatures, and adequate soil moisture. In such environments, the rate of water uptake through the roots can exceed the rate of water loss through the stomata, especially if transpiration is reduced due to lower light intensity or minimal air movement. Additionally, if the plant is actively growing and has a high demand for water for metabolic processes, it may also absorb more water.