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The interconversion of states of matter is used to :

(i) generate electricity in thermal power plant.(ii) separate nitrogen and oxygen from air by liquefaction.

(iii) prepare machine parts.(iv) prepare room fresheners.(v) prepare ice-creams.

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Q: What is interconversion of matter?
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Related questions

What are the two factors responsible for interconversion of matter?

temparature and pressure


Mention any two ways by which interconversion of state of matter can be achieved?

Changes of pressure or temperature


Do the state of matter triangle show the interconversion of states of matter?

Yes, the state of matter triangle (solid to liquid to gas) shows the interconversion of states of matter through processes like melting, freezing, and vaporization. This illustrates how substances can transition from one state to another under different conditions of temperature and pressure.


What are the practical application of interconversion of matter?

The interconversion of matter allows us to create new materials through chemical reactions, such as in the production of pharmaceuticals or plastics. It is also essential for processes like recycling, where waste materials can be transformed into new products. Understanding how matter can be converted helps in fields like agriculture, where nutrients are transformed into plant growth through processes like photosynthesis.


How the interconversion of body take place when a ball thrown upward reaches the ground after certain height?

There is no such thing as "interconversion of body" in this case. There are energy conversions; perhaps that's what you mean?


What mean by interconversion of states of matter?

Interconversion of states of matter refers to the process of changing a substance from one state (solid, liquid, gas) to another. This can occur through processes such as melting, freezing, evaporation, condensation, sublimation, and deposition, where energy is either absorbed or released to change the arrangement and motion of the particles.


What is interconversion of energy?

Interconversion of energy refers to the process where one form of energy can be converted into another form. This principle is based on the law of conservation of energy, which states that energy cannot be created or destroyed, only transformed from one form to another. Examples of energy interconversion include the conversion of electrical energy into light energy in a light bulb, or the conversion of chemical energy in food into kinetic energy for movement in our bodies.


Is solid liquid or gas a chemical or physical property?

interconversion between solid to liquid to gas is physical change


What are the uses of interconversion of matter?

Some uses of inter conversion of matter are given below-1. Water can be changed into steam as well as ice. Therefore, in nature, ice (in the form of snow), liquid water as well as water vapour are available.2. Steam evolved by heating water is used to run turbines and to generate electricity.3. Metals are melted by heating and these molten metals can be converted into alloys, which have many uses.


What has the author William James Hamilton written?

William James Hamilton has written: 'Mechanism and stereochemistry studies in the synthesis and interconversion of oxaziridines and nitrones'


What is the action of barium hydroxide in interconversion of fructose and glucose?

Barium hydroxide acts as a catalyst in the interconversion of fructose and glucose by isomerizing the ketohexose fructose to aldohexose glucose in the Lobry de Bruyn-van Ekenstein transformation. This process involves the migration of functional groups within the molecule, leading to the conversion of fructose to glucose.


What is the significance of the discovery E mc2?

The equation E=mc^2, proposed by Albert Einstein, revolutionized our understanding of energy, matter, and mass interconversion. It established that mass and energy are interchangeable, leading to developments in nuclear physics and influencing the development of atomic energy and nuclear weapons. The equation is fundamental in modern physics and has had a significant impact on scientific advancements and technological innovations.