The water has more heat than ice ... the water looses the heat to the ice the ice melts to become water .. but not warm water .. cold water that also looses heat to the warm water till equilibrium is reached and a final cool temperature is maintained .. but then the air around the water adds heat to the cold water till they all reach equilibrium and the water is warm again ..
Reversible reactions are those where the products are in equilibrium at a set of conditions. For one of the most simple examples to illustrate this, look at ice water. At equilibrium conditions, a class of ice water is half ice and half water. If you shift the conditions by heating the ice water, ice will melt to bring the temperature back to equilibrium conditions but the ratio of ice to water will have changed.
the crushed of ice dissolve and become liquid, the equilibrium is stay at the bottle
Solid.
"Ice water" could either refer to water that has been chilled to the freezing temperature or just a container of water with ice floating in that is close to (but still above) that freezing temperature. Ice can be no warmer than the freezing point but can certainly be colder. If the solid (ice) is in equilibrium with the liquid ("ice water"), the ice will NOT be cooler, but as noted, if they are not really in equilibrium, you would expect the solid (ice) to be colder than the liquid water rather than the other way around.
The answer is that the system is in 'equilibrium'. More exactly thermal equilibrium. Ice and Water can both form at 0C and 1 ATM. When two things are touching, they are at equilibrium with each other. Since the ice cube has had enough time to melt, it has had enough time to reach equilibrium with the water and is at 0C.
The water has more heat than ice ... the water looses the heat to the ice the ice melts to become water .. but not warm water .. cold water that also looses heat to the warm water till equilibrium is reached and a final cool temperature is maintained .. but then the air around the water adds heat to the cold water till they all reach equilibrium and the water is warm again ..
Reversible reactions are those where the products are in equilibrium at a set of conditions. For one of the most simple examples to illustrate this, look at ice water. At equilibrium conditions, a class of ice water is half ice and half water. If you shift the conditions by heating the ice water, ice will melt to bring the temperature back to equilibrium conditions but the ratio of ice to water will have changed.
The simple reason is that an equilibrium reaction is occurring. When the ice cube is immersed into water, there is a difference in temperature, and as a result of this an equilibrium naturally occurs, with the ice cube warming up and the surrounding water cooling down. The ice cube will melt faster in a large amount of water than in a lesser amount because there is more surrounding water, and there will be differences in temperature between the water immediately surrounding the ice cube and the water surrounding the water surrounding the ice cube, so the outer 'layer' of water is warmer than that of the 'inner layer' (surrounding the ice cube), and this in turn warms up the inner layer and the outer layer cools down, still trying to reach equilibrium. Due to this increase in temperature the 'inner layer' tries to reach equilibrium with the ice cube and 'outer layer' of water even quicker, to produce a consistent temperature throughout the water. In a lesser amount of water there is less water to cool down, so the ice cube won't melt as quick as less energy is required to cool the water, unlike in the larger volume of water
The cell and the solution will reach equilibrium when they each contain 40 percent water. This equilibrium is achieved through osmosis.
The puddle underneath a melting ice cube is as cold as the ice cube because the water molecules that form the puddle still have low kinetic energy due to the loss of energy required for melting the ice. This means they remain at a low temperature, similar to the ice cube, until they absorb more energy from the surroundings to warm up.
In physics terms, yes. Ice has a negative heat, which when added to water, the negative heat is then transferred into the water, cooling it off. Then the opposite becomes true as well. The heat of the water acts to melt the ice, then reach thermal equilibrium, which happens only when both the "ice" and the water are the same temperature.
the crushed of ice dissolve and become liquid, the equilibrium is stay at the bottle
diffusion of water. It moves because it wants to reach equilibrium (equal water on each side)
Solid.
"Ice water" could either refer to water that has been chilled to the freezing temperature or just a container of water with ice floating in that is close to (but still above) that freezing temperature. Ice can be no warmer than the freezing point but can certainly be colder. If the solid (ice) is in equilibrium with the liquid ("ice water"), the ice will NOT be cooler, but as noted, if they are not really in equilibrium, you would expect the solid (ice) to be colder than the liquid water rather than the other way around.
Masturbation usually helps calm the mind and help it to reach equilibrium.