Water would move from the cell into the solution until an equilibrium reached.
The concentration of starch is the same regardless of whether it is in a tube or a beaker, assuming the same amount of starch is present in both. Concentration is typically expressed as the amount of solute (starch) per unit volume of solvent. It does not depend on the container in which the solute is placed.
When dye is placed at one end of a beaker of otherwise pure water, it will start to diffuse throughout the water due to the concentration gradient. The dye molecules will move from the area of higher concentration (where the dye was added) to areas of lower concentration until they are evenly distributed. This process occurs until the solution reaches a state of equilibrium, resulting in a uniform color throughout the water.
The temperature of a beaker is typically measured using a thermometer that is placed in the water inside the beaker. The thermometer will provide a reading of the water temperature, which indirectly reflects the temperature of the beaker as well.
Hydrilla is an aquatic plant which means that it naturally grows in water. If one placed hydrilla twigs in a beaker of water, the twigs would begin to sprout roots and would eventually grow leaves if the environment was conducive to growth.
do you go to UTAS? that is not an answer how is this going to help people ????
The solution in the bag is hypotonic compared to the solution in the beaker. This is because the bag has a lower concentration of solute (2%) compared to the beaker (10%), so water will tend to move into the bag to equalize the concentrations, causing the bag to swell.
beakers are not made of water, they are made of glass.
The concentration of starch is the same regardless of whether it is in a tube or a beaker, assuming the same amount of starch is present in both. Concentration is typically expressed as the amount of solute (starch) per unit volume of solvent. It does not depend on the container in which the solute is placed.
You need dayan 2 hours
A solution which has a high concentration of a solute (example - glucose) will have a low water concentration. But when you look at pure water it has a high water concentration. So if a cell contains a high concentration of glucose and was placed in a pure water solution, water would simply move down its concentration gradient (going from high to low) which eventually causes the cell to swell. I hope this helped :D
it would absorb more and more water until it will explode
a tripod
It will shrink.
Without boron, the glass beaker may not be able to withstand sudden temperature changes and could shatter due to thermal shock when placed in iced water. This is because borosilicate glass, which contains boron, has a lower coefficient of thermal expansion and is better suited for rapid temperature changes.
What will happen to a red blood cell that is placed in a solution of 90 percent water and 10 percent salt is that the salt will decrease in volume due to osmosis. Meanwhile the water will enter the red blood cell, making it swell up.
Nat nuh nuh.
It would get salty! duhhh