This is a reversible process.
The adsorption of oxalic acid on charcoal is typically considered to be physisorption. Physisorption involves weak van der Waals forces between the adsorbate (oxalic acid) molecules and the surface of the adsorbent (charcoal). Chemisorption, on the other hand, involves stronger chemical bonds and typically requires more energy.
Density is a property not a process.
It is a reversible reaction
michael webb
Physisorption Chemisorption Forces of attraction are vander Waals' forces Forces of attraction are chemical bond forces Low enthalpy of adsorption (20 - 40 k.J/mole) High enthapy of adsorption (200 - 400 k.J/mole) This process is observed under conditions of low temperature This process takes place at high temperatures It is not specific It is highly specific Multi-molecular layers may be formed Generally, monomolecular layer is formed This process is reversible This process is irreversible
This is a reversible process.
Physisorption is exothermic in nature. Therefore, in accordance with Le-Chateliere's principle, it decreases with an increase in temperature. This means that physisorption occurs more readily at a lower temperature.
Evaporation is a reversible process.
A Bunsen burner is an object: it is not a process of any kind.
Yes it is reversible and the process is called condensation!
Cyclic process is a super set of reversible process, taking into concern the dissipative forces of the system!
Yes it is reversible (physical) called melting or dissolving
Yes, evaporation is the changing of matter from a liquid to a gas. You can reverse this process through condensation which is the change from a gas to a liquid.
physisorption is an exothermic reaction.so according to le chatlier's principle,as temperature increases,backward reaction is favoured
physisorption is an exothermic reaction.so according to le chatlier's principle,as temperature increases,backward reaction is favoured
The adsorption of oxalic acid on charcoal is typically considered to be physisorption. Physisorption involves weak van der Waals forces between the adsorbate (oxalic acid) molecules and the surface of the adsorbent (charcoal). Chemisorption, on the other hand, involves stronger chemical bonds and typically requires more energy.