the pressure is more than the human body is designed to cope with.
The molecules in a stone are packed together more tightly than the molecules in water-- the stone is more dense than the water is, so the stone sinks.
That's not true. You can easily pump water higher than 12 meters providing you push it upwards from below. What you can't do is SUCK water upwards by more than 12 meters. The reason for that is that when you 'suck' water upwards, you're really creating a partial vacuum above the water and letting air pressure push the water up the pipe. But the weight of a column of 12 meters of water is more than the amount of air pressure there is to force it upwards, so a partial vacuum forms above 12 meters and the water simply won't move higher than that.
It is a deep-water wave because the depth of the water is more than half the wavelength of the wave. In deep-water waves, the water depth is greater than half the wavelength.
Water has a weight. The more you stack up the more it weighs. There fore if you stack up 10 meters or 20 meters it makes a big difference.
zeus is the king of dolphins
it cant grow plants because its more than just and plants only take plain water.
less than...a km is 1000 meters
That's the Dead Sea.
2.5 km is not more than 2700 meters, it is less. 2.5 km is 2500 meters.
Flow meters and water meters are designed for different applications. Flow meters measure the rate of flow of a fluid (such as water) in a pipe, while water meters measure the total volume of water consumption. The accuracy of each type of meter depends on factors such as the design, calibration, and conditions of use. In general, both flow meters and water meters can be highly accurate when properly selected and maintained.
20 km are more than 20 m meters because kilometers are bigger than meters so 20 meters are less than 20 kilometers.