The narrow thread of a thermometer allows it to respond more quickly to changes in temperature. This design ensures that the thermometer provides a more accurate reading by allowing the liquid inside to expand or contract faster in response to temperature changes.
The mercury in a thermometer rises because of thermal expansion. When the temperature surrounding the thermometer increases, the molecules of the mercury expand, causing it to move up the narrow tube of the thermometer.
The bore of a thermometer is narrow to ensure a quick and accurate response to temperature changes, as the narrow bore reduces the amount of mercury or other liquid needed to fill it. A narrow bore also allows for more precise temperature readings, especially when measuring small temperature differences.
The narrow constriction in a clinical thermometer prevents the mercury column from dropping back down once body temperature is measured. This allows for an accurate reading of the highest temperature reached by the body.
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 narrow capillary bore allows for more precise measurement of temperature changes because the mercury expands and contracts more readily in the smaller tube. This enables the thermometer to detect even small variations in temperature accurately.
A bore refers to the extremely fine or narrow tube found in a thermometer. It is called a narrow bore or a capillary.
Rafferty - 1977 The Narrow Thread 1-5 was released on: USA: 3 October 1977
The mercury in a thermometer rises because of thermal expansion. When the temperature surrounding the thermometer increases, the molecules of the mercury expand, causing it to move up the narrow tube of the thermometer.
The bore of a thermometer is narrow to ensure a quick and accurate response to temperature changes, as the narrow bore reduces the amount of mercury or other liquid needed to fill it. A narrow bore also allows for more precise temperature readings, especially when measuring small temperature differences.
The narrow constriction in a clinical thermometer prevents the mercury column from dropping back down once body temperature is measured. This allows for an accurate reading of the highest temperature reached by the body.
The bore of a thermometer is narrow to ensure that the liquid inside, typically mercury or colored alcohol, expands and contracts uniformly with temperature changes. A narrow bore allows for more precise readings, as even small changes in temperature cause noticeable movement of the liquid column. Additionally, the narrow design minimizes the amount of liquid needed, reducing the risk of breakage and making the thermometer easier to read.
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 narrow capillary bore allows for more precise measurement of temperature changes because the mercury expands and contracts more readily in the smaller tube. This enables the thermometer to detect even small variations in temperature accurately.
Right hand thread
The bore in a thermometer is the narrow tube where the liquid (mercury or alcohol) expands and contracts with temperature changes. This expansion and contraction of the liquid in the bore allows the thermometer to measure and display the temperature accurately.
It's the red thing in thermometers. [wrong I'm sorry.] the red thread in a thermometer is coloured alcohol. If the thread is mercury, then it will be silver-coloured.
Lsten to your teacher and stop talking to your sitmate -GRade 7 -SUS-bryan