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WHY inner bottle's outer body of a thermous flask is made up of silver in colour?
The outer body of a thermos flask is often made of a silver-colored material to provide insulation and prevent heat transfer. The silver color helps in reflecting heat, maintaining the temperature inside the flask for a longer period. Additionally, the silver color gives the thermos flask a sleek and modern appearance.
Why are shiny outer surfaces needed in a vacuum flask?
The outer surfaces do not need to be shiny. The interior ones do, to reflect heat back rather than let the heat pass out of the vacuum flask. The vacuum between the double walls of the flask also reduces heat loss.
Should you use a flask which is a good conductor of heat or poor conductor to keep the tea inside the flask warm?
You should use a flask that is a good insulator or poor conductor of heat to keep the tea warm. This will prevent heat from escaping the flask and help maintain the temperature of the tea for a longer period of time.
What is the function of the silvered surface in a vacuum flask?
The silvered surface in a vacuum flask helps to reflect heat back into the container, reducing heat transfer by radiation. This helps to maintain the temperature of the contents inside the flask by minimizing heat loss or gain.
Why is the inside of a thermos flask silver?
The inside of a thermos flask is often silver because silver is a good reflector of heat. This helps to reduce heat transfer by reflecting heat back into the flask, keeping the contents hot or cold for longer periods of time.
How does heat transfer in a flask?
Heat transfer in a flask occurs through conduction - the heat energy moves from the hot liquid inside the flask to the walls of the flask. The rate of heat transfer depends on the thermal conductivity of the material the flask is made of. Additionally, heat can also be lost or gained through convection if the flask is open to the surrounding environment.
What is the function of a bottom flask?
It is used to heat liquids or to made chemical reactions.
Why does the outer walls of thermos flask made shining?
The outer walls of a thermos flask are often made shiny for aesthetic purposes, making the flask look more appealing. Additionally, the shiny surface can help with heat reflection, reducing heat transfer between the flask and its surroundings, thus improving the overall insulation properties of the thermos.
How is heat loss minimized in a thermos flask?
Heat loss in a thermos flask is minimized through the use of a vacuum layer that acts as insulation, preventing heat transfer by conduction or convection. Additionally, the inner and outer walls of the flask are often made of materials with low thermal conductivity to further reduce heat loss. Finally, the flask is usually sealed with a tight-fitting cap to prevent heat loss through evaporation.
How does the outer case of a thermos flask prevents heat loss by?
The outer case of a thermos flask is usually made of a material with low thermal conductivity, such as plastic or stainless steel. This helps to reduce heat transfer between the contents of the flask and the external environment, thereby minimizing heat loss or gain. Additionally, the vacuum insulation between the inner and outer layers of the flask further prevents heat transfer by convection and conduction.
Why the outer body of inner bottle of thermos flask is made silver in colour?
The outer body of the inner bottle of a thermos flask is often made silver in color to provide a reflective surface. This reflective surface helps to minimize heat transfer through radiation, improving the overall insulation of the flask and allowing it to better retain the temperature of the contents inside.
What is the main cause of heat loss in a normal thermos flask?
The main heat loss in a good thermos flask, is due to heat conducted through the material. (Glass or Stainless Steel). There should be little heat lost through the vacuum of the flask.
WHY inner bottle's outer body of a thermous flask is made up of silver in colour?
The outer body of a thermos flask is often made of a silver-colored material to provide insulation and prevent heat transfer. The silver color helps in reflecting heat, maintaining the temperature inside the flask for a longer period. Additionally, the silver color gives the thermos flask a sleek and modern appearance.
How does a flask reduce heat loss by conduction and radiation?
Using vacuum as an insulator avoids heat loss by conduction. Heat transfer is minimised by reflective silver surfaces that are applied to the flask. This prevents thermal radiation from entering and escaping the flask.
How does a tight fitting plastic stopper on a flask minimise heat transfer?
It prevents heat transfer by convection as it prevents contact between the surrounding air and air inside the flask. It prevents heat transfer by conduction as it is a poor conductor of heat.
What is a vacuum flask made of?
A vacuum flask is a type of flask that aims to stop all three forms of heat transfer. Conduction, convection and radiation. A vacuum flask prevents conduction by making a vacuum between the inside and the outside layer of the flask, so that the only solids that touch are the lid and the main body of the flask. This means the amount of conduction that occurs is minimised. One major drawback though, is when the hot water transfers heat with the cold air inside the flask, then the hot air transfers heat with the cold lid, and then on the likely chance that the lid is hotter than the surroundings, the lid transfers heat with the air molecules around it. This means that a considerable amount of heat is lost to the surroundings. The only way convection can occur is by the hot liquid or solid transferring heat with the trapped air inside the flask, although this only affects the temperature of the water by a bit, because most of the liquid condenses again. The flask is made so that radiation is reflected back of the sides, which is made of a shiny material. Also, the flask is not transparent; it is made of an opaque material, usually plastic or metal. The only way radiation can escape, is by the lid being taken off.
What two features of a vacuum flask help reduce heat loss by conduction?
The vacuum layer between the inner and outer walls of the flask prevents conduction of heat as there are no particles or molecules to transfer heat. The reflective surface coating on the inner wall of the flask helps to minimize heat transfer by reflecting heat back towards the liquid inside the flask.
