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Some Materials conduct heat more than others for example if you poured hot water on a metal pole the pole would become hot much faster than if you poured the hot water on a plastic pole. Coffee Flasks use materials that conduct heat the least so that not much of the heat is able to pass through it.
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Why do the inner surface of thermos flask kept shiny?
The shiny inner surface of a thermos flask helps to reflect heat back into the flask, reducing heat transfer to or from the contents. This helps to maintain the temperature of the liquid inside the flask for a longer period of time.
The color of a vacuum flask in the inside?
The inside of a vacuum flask is typically silver or metallic in color. This reflective surface helps to maintain the temperature of the contents by reflecting heat back into the flask or minimizing heat transfer through radiation.
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 did the temperature rise in flask a?
The temperature in flask A rose because heat was transferred from the surroundings to the contents of the flask, increasing the kinetic energy of the molecules and causing their temperature to increase.
What can be held in a thermos flask?
Hot drinks such as tea and coffee are usually held in a thermos flask. The flask will keep the drink warm for several hours when one is outside or on the move. Cold drinks can also be kept in them or even non drinking liquids that one wishes to keep at a steady temperature.
Why are the walls of the vacuum flask made from glass?
Glass is a good insulator, helping to maintain the temperature inside the vacuum flask. It is also transparent, allowing users to see the contents of the flask easily. Glass is also odorless and does not affect the taste of the liquids stored inside.
What happens when a thermo flask contains some ice cubes?
The ice cubes will help to keep the contents of the thermos flask colder for a longer period of time. The thermos flask's insulation will prevent heat transfer from the surroundings, helping to maintain the temperature of the ice cubes and the contents of the flask. Over time, the ice cubes will melt and help to cool the contents of the flask.
Why do the inner walls of a vacuum flask have a silver coating?
The silver coating on the inner walls of a vacuum flask helps to reflect heat radiation, reducing heat transfer through conduction, convection, and radiation. This helps to maintain the temperature of the liquid inside the flask for a longer period of time.
Can a vacuum flask keep cold liquids cold?
Yes, a vacuum flask can keep cold liquids cold by creating a vacuum between two layers of insulating material, which helps to maintain the temperature of the liquid inside the flask. This insulation prevents external temperature changes from affecting the liquid inside, allowing it to stay cold for an extended period of time.
How does the cork of the vacuum flask reduces heat?
The cork in a vacuum flask acts as an insulator, minimizing the flow of heat between the inside and outside of the flask. This helps to maintain the temperature of the contents by reducing heat transfer through conduction and convection. The cork creates a barrier that traps air and prevents heat from escaping or entering the flask efficiently.
The surfaces of a dewar flask are silvered for the purpose of minimizing heat transfer by what process?
The surfaces of a dewar flask are silvered to minimize heat transfer through radiation. The silver coating reflects thermal radiation, preventing heat from entering or escaping the flask. This helps maintain the temperature of the contents inside the dewar flask for longer periods.
Which mode of heat transfer is thwarted by the shiny surface in a thermos flask?
Radiation is the mode of heat transfer that is thwarted by the shiny surface in a thermos flask. The shiny surface reflects the radiant heat, preventing it from escaping the flask and helping to maintain the temperature of the contents inside for longer periods of time.
