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Dimensional Formula of Temperature

Temperature is an essential physical quantity in the field of thermodynamics. Let us learn and understand the concepts related to temperature and its dimensional formula.

Table of Content

The dimensional equation is derived by equating the physical quantities with their corresponding dimensional formula, and it has a varied number of applications. Temperature is the magnitude of hotness or coldness of any object and is used to measure the heat energy status. A device called the thermometer is used to measure the temperature. There are many scales used to quantify the temperature, such as Fahrenheit (F), Celsius (°C), and kelvin (K). This article will help in understanding the temperature and nuances related to temperature.

Dimensions and its concepts

In terms of physics, dimensions are measurements of physical quantities such as length, width, and height in a specific direction. Every shape and quantity has some kind of dimension.

The power associated with the physical quantities from which one unit of every quantity is obtained is considered as dimensions. Let’s learn more about the dimensional formula of temperature with this article.

The dimensional equation is derived by equating the physical quantities with their corresponding dimensional formula.

For instance, if L is a physical quantity that is dependent on mass (M), length (L), and time (T) with respect to powers. Then, the dimensional formula is represented as [MaLbTc].

Significance of dimensional formula

The following points represent the significance associated with the dimensional formula:

The accurateness of the equation can be checked by this.
It helps in obtaining the derivations which show the interrelationship between different physical quantities.
To convert the system of units of physical quantities from one into another.
Fundamental units have been used to express the quantities.

Drawbacks of dimensional analysis

It provides no facts upon the dimensionless quantities.
It is mainly dependent on multiplication-related formulas. Other forms of functions such as trigonometry, exponential, and logarithmic cannot be explained by this.

Temperature

The temperature of any object can be defined as the feature (property) that helps in the identification of the thermal equilibrium state with respect to other objects. In other words, the temperature is the magnitude of hotness or coldness of any object and is used to measure the heat energy status.

It helps in the identification of the direction in which temperature flows, that is from a hotter body to a colder body (indicating higher to lower temperature).

Another unique thing about temperature is that it does not show equivalent energy to any thermodynamic system. For instance, the burning match has higher energy as compared to the iceberg. However, the total heat energy that consists of the iceberg is greater than the match.

Likewise, pressure and density, the temperature is also known as the intensive property of any object, which means that it is not dependent on the quantity (mass) of the matter.

Temperature plays an essential role in many fields, including medical, engineering, research, experimentation, agriculture, biotechnology, food, beverages, etc. Furthermore, our overall health is dependent on the optimum temperature.

Scales are used to measure temperature.

There are mainly three kinds of scales that are used to measure the temperature, and these are Fahrenheit (F), Celsius (°C), and kelvin (K). In the United States and other similar countries, Fahrenheit (F) is used to measure. The Celsius (°C) scale is a standard unit for the temperature and is used in almost every country which uses the metric system measurement in the area of science. Kelvin scale is an absolute temperature scale. Generally, conversion of celsius to kelvin and vice versa has been done in the research and experimentation.

Dimensional formula

In the branch of thermodynamics, the S.I. unit of temperature is Kelvin (K).

Hence, the dimensional formula of temperature is given below,

M⁰L⁰T⁰K¹

In special fields of engineering and sciences, Rankine Scale (given by William Rankine) which is another absolute scale is used to measure the temperature instead of the Kelvin scale. Another scale is the Réaumur (°Re) temperature scale (or octogesimal division) which is mainly used in some parts of Europe during the 18th and 19th centuries.

Conclusion

Thus, calculating the dimensional formula of various physical quantities helps in understanding different other aspects of physics. Temperature is an intensive property of any object, and the magnitude of hotness or coldness of any object is used to measure the heat energy status, which is called temperature. The thermometer is a device used in the measurement procedure. There are many scales used to quantify the temperature, such as Fahrenheit (F), Celsius (°C), and kelvin (K). The dimensional formula of temperature is M⁰L⁰T⁰K¹

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