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The answer depends on the rate of WHAT! The rate of water boiling, for example, will increase with temperature but the rate of ice forming will decrease.
The boiling water at its boiling point uses the extra energy being supplied to transform its state from liquid to gas (steam) at the rate of 540 cals per gram. Now if you have the water boiling in a pressurized vessel you can make the water boil at a higher temperature and this is used in certain applications but the temperature will remain constant at that pressure as long as there is water to be converted to steam.
The rate constant is the reaction rate divided by the concentration terms.
Boiling specifically means that the liquid's partial vapor pressure is equal to the atmospheric pressure.From Wikipedia: "Boiling is the rapid vaporization of a liquid, which occurs when a liquid is heated to its boiling point, the temperature at which the vapor pressure of the liquid is equal to the pressure exerted on the liquid by the surrounding environmental pressure."Simple evaporation is a slow process where a liquid turns to cool vapor at temperatures below the boiling point. Boilingis a rapid process where a liquid turns to hot vapor when heated to the boiling point. Boiling involves the formation of bubbles of this hot vapor, which rise to the surface of the liquid, where they break and release the vapor.
after 5 minutes the water vaporates (it turnes from water into steam) Until all molecules have gone from liquid to gas, the temperature is steady at boiling temp, 100C.
the thicker a liquid is the longer it take to boil!
The answer depends on the rate of WHAT! The rate of water boiling, for example, will increase with temperature but the rate of ice forming will decrease.
In a system at constant vapor pressure, a dynamic equilibrium exists between the vapor and the liquid. The system is in equilibrium because the rate of evaporation of liquid equals the rate of condensation of vapor. -KarkatHorns
it expands at constant rate and has got high boiling point.
The boiling rate of a substance is a physical property.
The boiling water at its boiling point uses the extra energy being supplied to transform its state from liquid to gas (steam) at the rate of 540 cals per gram. Now if you have the water boiling in a pressurized vessel you can make the water boil at a higher temperature and this is used in certain applications but the temperature will remain constant at that pressure as long as there is water to be converted to steam.
The curve showing the relationship between temperature and time for a given amount of liquid heated at a constant rate is called a "heating curve." This curve is mapped out on a graph.
The curve showing the relationship between temperature and time for a given amount of liquid heated at a constant rate is called a "heating curve." This curve is mapped out on a graph.
Boiling is when a liquid starts ti make the change from a liquid to a gas, and evaporation is when a a liquid is somewhat "drying up" and becoming a gas, so they are both a liquid becoming a gas, boiling is almost just a type of evaporation. hope that helps!
impurity- increases boiling point, lowers freezing point. breaks the constant rate
There is no difference between them they are same rate constant is another name of specific rate constant
All particles of all things are in constant motion. Particles in a liquid collide, but the rate is subdued by the viscosity of the liquid.