The smallest change in temperature is typically defined as one Kelvin (K) or one degree Celsius (°C), as both scales have the same incremental value. In the context of thermodynamics, the smallest measurable change can also be considered at the atomic or molecular level, where changes can be detected in terms of energy states. In practical terms, however, the smallest change is often determined by the precision of the measuring instrument used.
The teamperature does not change
You can find the change in temperature by subtracting the initial temperature from the final temperature. For example, if the initial temperature is 20 degrees Celsius and the final temperature is 30 degrees Celsius, the change in temperature would be 10 degrees Celsius (30 - 20 = 10).
smalles volume element
During the time of change of state,the heat or temperature is used to increase the potential energy and there by change of state.This time there will be no change in temperature.
tropics
The Fahrenheit scale change of 1 degree is smallest when compared to Celsius change. 1.8 degrees Celsius is 1 degree Fahrenheit
No, the smallest change in temperature is represented by a Kelvin is the same as in Celsius, as one Kelvin is equivalent to one Celsius degree. The Kelvin scale is the same size as the Celsius scale but begins at absolute zero.
Substances with high specific heat capacities, such as water, will show the smallest change in temperature when equal amounts of energy are absorbed. This is because these substances can absorb a lot of heat energy without a significant increase in temperature.
water air sand concrete
temperature
The equator sees the smallest variation in temperature from year to year and from month to month.
Hawaii
Fahrenheit
Mass does not change with temperature
Change in temperature = New temperature minus Old temperature.
The teamperature does not change
The expansion of a metal due to an increase in temperature is a physical change.This phenomenon is not a chemical change because the smallest unit of the material that possesses all of the chemical properties of the material is one atom, and no chemical changes to any of the atoms has occurred; none has been oxidized or reduced, nor has any other change in the chemical bonding of the metal atoms taken place.