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From thermodynamics perspective heat is also known as quantity of energy and work is known as quality of energy,the energy which is in organised form and which can be utilized for producing any kind of effort and one more thing we generally say energy is conserved here we means quantity of energy is conserved. However,quality of energy depends on the efficiency that ideally is a function of temperature. So as we increase the source temperature quality of energy increases.(carnot’s formula η =(1-Tsink/Tsource)

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Shafeeq Ali

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3y ago
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6mo ago

Quality of energy refers to the usefulness or efficiency of energy for performing a specific task, while quantity of energy refers to the amount or total volume of energy available. For example, high-quality energy may be in the form of electricity that can power devices efficiently, while high quantity of energy may refer to a large amount of wood for burning.

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Q: What is the difference between quality and quantity of energy?
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What is the difference between high quality and low quality energy?

The main difference between high quality and low quality energy is in the perception. This will facilitate the proper grading of tasks with the high tasks using high energy and low tasks low energy.


The main difference between heat and temperature is that temperature is solely dependent on the?

The main difference between heat and temperature is that temperature measures the average kinetic energy of the particles in a substance, while heat is the transfer of energy between two substances due to a temperature difference. Temperature is a scalar quantity, while heat is a form of energy.


What is a measure of quantity of heat?

The measure of quantity of heat is given by the unit calorie (cal) or joule (J). Heat is a form of energy that is transferred between objects due to a temperature difference.


Is mechanical energy a vector quality?

No, mechanical energy is a scalar quantity. It represents the sum of potential and kinetic energy in a system, without direction.


What is heat quantity?

Heat quantity refers to the amount of thermal energy transferred between two objects due to a difference in temperature. It is usually measured in units of joules or calories. Heat quantity is commonly used to describe the amount of heat exchanged during a physical or chemical process.


What is the difference between finite and renewable energy?

Finite energy sources are finite in quantity and will eventually run out, such as fossil fuels like coal and oil. Renewable energy sources are constantly replenished and will not be depleted over time, such as solar, wind, and hydropower.


Do Raw eggs have a large quantity of quality carbohydrates?

no. they are a good source of protein and B6, a good source for energy


What is the difference between a fundamental and derived quantity?

A fundamental quantity is a physical quantity that cannot be defined in terms of other physical quantities, while a derived quantity is a physical quantity that is defined in terms of fundamental quantities through mathematical relationships. Examples of fundamental quantities include mass, length, and time, while examples of derived quantities include velocity, acceleration, and energy.


Is there a difference between heat energy and thermal energy?

No, the same


What is the difference between radial energy and tangential energy?

Radial energy refers to energy moving towards or away from a center point, such as in a circular motion. Tangential energy, on the other hand, refers to energy moving perpendicular to a radial direction, along a tangent to a curve or path. These two forms of energy can interact in complex ways in systems involving circular motion.


Whats the difference between activation energy and the change of energy in a PE diagram?

Activation energy is the minimum energy required for a reaction to occur, while the change in energy in a potential energy diagram represents the difference in energy between the reactants and the products of a reaction. Activation energy is specific to the transition state of a reaction, whereas the change in energy is a measure of the overall energy difference between reactants and products.


Why is superheating desirable?

As you'll know, the amount of energy you can get from (say) steam, is limited by the difference between the hottest the steam is, and the condensation temperature. So if we confine the steam, we can heat it well above the usual boiling point, and thus the quantity of energy we can extract is greater.