Science, asked by tambeshubham236, 1 year ago

what is the temperature of freezing mixture in the experiment of hopes apparatus

Answers

Answered by naz99
10

Anomalous Expansion of the water is just the simple experiment done from Hope's Process. This is the easy method. I have discussed it below. Have a look to it.


The Hope's experiment is Clearly shown below.


Experiments ⇒


Requirements of the Experiments ⇒  It consist of a high metallic lattice cylinder provided with two side openings, one near the high top and other near the bottom, fitted with thermometers.  The middle portion of the part of cylinder is surrounded with a cylindrical trough containing a freezing mixture of ice and salt. Also, The cylinder is fitted with pure water at room temperature.


Observations noticed in the Experiments ⇒  At Starting both the thermometers shows same temperature.


After this,First the thermometer recorded by lower thermometer starts decreasing and finally becomes steady at 4° C or 277 K, while the temperature recorded in upper thermometer remains unchanged during this time.


After the time progresses, then the temperature recorded by the lower thermometer remains constant at 4°  C. and the upper thermometer ,  near the top records continuous fall in temperature up to 0° C or 273 K, and then it becomes steady.


Results drawn from the Experiments ⇒ The expansion of water when cooled from 4° C to 0°C is scientifically anomalous expansion of water.



Answered by anirudhayadav393
0

Concept introduction:

Hopes apparatus is considered as a vertical vessel in which water is surrounded across the vessel by a trough freezing ice. This particular apparatus consists of two thermometers one measure the temperature of water and other below the trough.

Explanation:

We have been given a question that represents the temperature of mixture inside a vertical vessel of hopes apparatus.

We have to find the temperature.

Final answer:

The temperature of freezing mixture in the experiment of hopes apparatus is 4 degree Celsius.

#SPJ2

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