-25 degres
The answer should depend on how much dissolved sugar per cc of water, and also a bit on what type of sugar it is. Also, even if it were spelled right, "-25 degres" doesn't mean anything until you specify what system is used. I think it might be close in the °C system, if the sugar solution were saturated.
Salt lowers the freezing point of water, causing the ice to melt faster than it would with sugar or sand. When salt is added to ice, it disrupts the hydrogen bonding between water molecules, making it easier for the ice to melt. Sugar and sand do not have the same effect on lowering the freezing point of water.
The addition of sugar to Beaker B lowered the freezing point of the water, while the addition of salt to Beaker C also lowered the freezing point of the water. This is because both sugar and salt act as solutes that disrupt the formation of ice crystals and reduce the freezing point of the solution.
Yes, sugar water does affect the time it takes to freeze. Adding sugar to water lowers the freezing point of the solution, making it harder for water molecules to form solid ice crystals. This phenomenon is known as freezing point depression. As a result, sugar water will take longer to freeze compared to pure water at the same temperature.
Yes because of the sugar molecules and temperature.
Sugar lowers the freezing point of a liquid by a process called "freezing point depression". The same idea is used when salt is sprinkled on icy roads to melt the ice. Sugar only works half as well as salt however.
Saltwater freezes slower than sugar water because the salt in saltwater lowers the freezing point of the water, requiring it to be at a colder temperature to freeze. Sugar does not have the same effect on the freezing point of water.
Salt works better in making water cold because it lowers the freezing point of water, allowing it to reach colder temperatures without freezing. Sugar does not have the same effect as salt on the freezing point of water.
When sugar is added to water, the sugar dissolves into the water to form a sugar-water solution. This increases the sweetness of the water. The physical properties of the water, such as boiling and freezing points, also change due to the presence of sugar molecules in the solution.
Salt lowers the freezing point of water, causing the ice to melt faster than it would with sugar or sand. When salt is added to ice, it disrupts the hydrogen bonding between water molecules, making it easier for the ice to melt. Sugar and sand do not have the same effect on lowering the freezing point of water.
The addition of sugar to Beaker B lowered the freezing point of the water, while the addition of salt to Beaker C also lowered the freezing point of the water. This is because both sugar and salt act as solutes that disrupt the formation of ice crystals and reduce the freezing point of the solution.
The melting and boiling points of water are higher than those of a sugar water solution because the presence of sugar disrupts the hydrogen bonding between water molecules. This disruption lowers the melting and boiling points of the solution compared to pure water.
no
The freezing point of sugared water is lower than that of pure water. The freezing point depression is dependent on the concentration of sugar in the water. Generally, a solution of 10% sugar will freeze at a lower temperature than pure water.
-5.58 C
Yes it does effect how fast it freezes because in the same way when you boil sugar and water the sugar is superheated but the water isnt, when you put it concentrated or not in the freezer then its the sugar that will mostly crystalize if they're's too much and it wil be dry or slimy or if you put too little sugar then it will be hard like ice and cream with a little sugar. People usually use the corn syrup or the brown sugar instead of granulated sugar.
The normal freezing temperature for pure water is 0c. Howeverif sugar is added in the pure water, the freezing point will be lower than zero. How far below zero will depend on the sugar concentration in the water.
normal water