The constriction in a clinical thermometer allows for expansion and contraction of the liquid inside without separating the column of liquid. This ensures accurate temperature readings by preventing the liquid from breaking and forming air bubbles.
Constriction in a clinical thermometer allows for easier reading of temperature changes, important for quick diagnostics. In a laboratory thermometer, a wider range of temperatures may need to be measured with higher precision, so constriction is less important for quick readings.
The narrow bend in a thermometer, called the constriction, helps to trap and hold the liquid within the bulb of the thermometer as it expands and contracts with changes in temperature. This constriction also acts as a barrier to prevent the liquid from flowing back into the bulb when the thermometer is tilted or turned upside down.
The bent constriction in the clinical thermometer allows for the expansion and contraction of mercury or alcohol in response to temperature changes. This design prevents the column of liquid from falling back down too quickly, ensuring an accurate reading can be taken by the healthcare provider.
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The constriction in a clinical thermometer allows for expansion and contraction of the liquid inside without separating the column of liquid. This ensures accurate temperature readings by preventing the liquid from breaking and forming air bubbles.
Constriction in a clinical thermometer allows for easier reading of temperature changes, important for quick diagnostics. In a laboratory thermometer, a wider range of temperatures may need to be measured with higher precision, so constriction is less important for quick readings.
The narrow bend in a thermometer, called the constriction, helps to trap and hold the liquid within the bulb of the thermometer as it expands and contracts with changes in temperature. This constriction also acts as a barrier to prevent the liquid from flowing back into the bulb when the thermometer is tilted or turned upside down.
The bent constriction in the clinical thermometer allows for the expansion and contraction of mercury or alcohol in response to temperature changes. This design prevents the column of liquid from falling back down too quickly, ensuring an accurate reading can be taken by the healthcare provider.
It stays at the maximum point so you get an accurate reading
Quote: When the temperature falls, the column of mercury breaks at the constriction and cannot return to the bulb, thus remaining stationary in the tube. After reading the value, the thermometer must be reset by repeatedly swinging it sharply to shake the mercury back through the constriction. Unquote.
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a lab thermometer did not have a constriction as compared to clinical thermometer. it have a wide range of measurement and usually contains alcohol
what characteristic belongs to a clinical thermometer
The constriction prevents the mercury from returning back to the bulb when the thermometer is removed from a particular body.
Even after the removal of the thermometer right from the mouth of the patient the mercury which has been raised up will remain intact even though the temperature of the surroundings is less than the body temperature. So the physician can see the temperature without any hurry.
constriction is one part of the thermometer that has like a hill