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a great variety of speeds.
ice melt in the room temperature
It is not possible. You call the substance a solid if it is so at room temperature. It is not possible for a solid (at room temperature) to also be as a liquid at room temperature.
That would depend on three main factors: 1) The Initial Temperature of the glass of water 2) The temperature of the room 3) Time Additional Factors that could influence what happens: 1) Proximity to a heat source 2) Temperature of the surface the glass is sitting on 3) Lighting 4) Color of the glass 5) Type of glass 6) Shape of glass Heat always moves from a hotter area (higher energy) to areas that are cooler (lower energy), the outcome of the glass of water, will primarily depend on the temperature of the room and the temperature of the water. IF: The temperature of the water is lower then the temperature of the room then the glass of water will get warmer. I.e. the ice cubes in a glass of coke melting during a hot summer's day at the beach. IF: The temperature of the water is higher than that of the room temperature then the glass of water will get cooler. I.e. a glass of water freezing when set out side in the middle of winter in Antarctica. The other factors will mainly dictate how fast or slow the temperature change will occur. The temperature of the water will approach the air temperature.
this is because the type of materials you have and the type of object you have. the reason for this is because, for example glass is room temperature because the air-con in your classroom is set at room temperature and the glass of your window contracts to the air con making it room temperature
a great variety of speeds.
as the air molecules are free to move , when we pour cold water in glass its surface become cooler than the room temperature , thr air molecules stick with the walls of glass and due to low temperature there these air molecules deposit there.
ice melt in the room temperature
ice melts become it gives cold to the soda
Much faster at room temperature compared to in ice. Higher the temperature, the more kinetic energy molecules have, the faster they move and the more collisions the sugar molecules have with the water molecules in the tea per second therefore faster dissolving rate.
It is not possible. You call the substance a solid if it is so at room temperature. It is not possible for a solid (at room temperature) to also be as a liquid at room temperature.
That would depend on three main factors: 1) The Initial Temperature of the glass of water 2) The temperature of the room 3) Time Additional Factors that could influence what happens: 1) Proximity to a heat source 2) Temperature of the surface the glass is sitting on 3) Lighting 4) Color of the glass 5) Type of glass 6) Shape of glass Heat always moves from a hotter area (higher energy) to areas that are cooler (lower energy), the outcome of the glass of water, will primarily depend on the temperature of the room and the temperature of the water. IF: The temperature of the water is lower then the temperature of the room then the glass of water will get warmer. I.e. the ice cubes in a glass of coke melting during a hot summer's day at the beach. IF: The temperature of the water is higher than that of the room temperature then the glass of water will get cooler. I.e. a glass of water freezing when set out side in the middle of winter in Antarctica. The other factors will mainly dictate how fast or slow the temperature change will occur. The temperature of the water will approach the air temperature.
Nothing. It is at room temperature.
Whatever the room temperature happens to be at the time. If the room is 75° then the salt would be the same temperature.
this is because the type of materials you have and the type of object you have. the reason for this is because, for example glass is room temperature because the air-con in your classroom is set at room temperature and the glass of your window contracts to the air con making it room temperature
Other substances with molecules of a similar state are indeed in a gaseous state, at room temperature. It seems that water is liquid, at room temperature, because of its large electric dipole, which causes molecules to attract each other more than is usual for molecules of that size.Other substances with molecules of a similar state are indeed in a gaseous state, at room temperature. It seems that water is liquid, at room temperature, because of its large electric dipole, which causes molecules to attract each other more than is usual for molecules of that size.Other substances with molecules of a similar state are indeed in a gaseous state, at room temperature. It seems that water is liquid, at room temperature, because of its large electric dipole, which causes molecules to attract each other more than is usual for molecules of that size.Other substances with molecules of a similar state are indeed in a gaseous state, at room temperature. It seems that water is liquid, at room temperature, because of its large electric dipole, which causes molecules to attract each other more than is usual for molecules of that size.
it happens because in ice, the structure of water molecules are so closely and tightly related that it takes a longer time to enter the heat at the room temperature, unlike in water