Yes, actually. Part of it at least.
Bears Stadium (which was the official name of Mile High Stadium before it was torn down) had a section of stands that rode on a quarter of an inch of water, giving the stands barely enough lift that the stands could be pushed into position for Baseball games or pulled out for a longer field (for football).
Yes, an entire side of the stadium really did move on water.
Water does move in semipermeable from high to low because all of the molecules have the need to constantly move around and will move to were ever there is room. so if there is a space with high and a space with low, the molecules in the high will move to the low and even themselves out.
They lost that closeness they had at highfield road
High water potential means that water molecules are more likely to move from an area with high water potential to an area with low water potential. It is a measure of the tendency of water to move from one place to another due to factors such as solute concentration, pressure, and gravity.
Gravity/downhill.
No, as water is cushioning your every move once in the water. Diving can be painful if you hit the water wrong.
Opening Day 2006 was the first in the new stadium
At the speed of a normal cruise ship, QE2 can move 125 feet per gallon. At her high speed service speed (28.5 knots) she can move 50 feet per gallon.
About 1 mile.
they jet through the water at really high speed
Water molecules can move in different ways depending on the environment. In general, water molecules tend to move from areas of high concentration to areas of low concentration through a process called diffusion. Additionally, water molecules can also move through osmosis, where they move across a semi-permeable membrane from an area of low solute concentration to an area of high solute concentration.
That is incorrect. Osmosis actually causes water to move from areas of high water concentration to areas of low water concentration, in order to equalize the concentration of solutes across a semipermeable membrane.
There will be a net movement of water across a selectively permeable membrane from where the water is in high concentration to where it is in low concentration.