320677
Bleeding is stopped by the application of ferric chloride. This is because:
1 The blood starts flowing in opposite direction.
2 The blood reacts and forms a solid, which seals the blood vessel.
3 The blood is coagulated and thus the blood vessel is sealed.
4 The ferric chloride seals the blood vessel.
Explanation:
Conceptual Questions
CHXII05:SURFACE CHEMISTRY
320678
The process which is responsible for the formation of delta at a place where rivers meet the sea is
1 peptization
2 colloidal formation
3 emulsification
4 coagulation
Explanation:
Conceptual Questions
KCET - 2017
CHXII05:SURFACE CHEMISTRY
320679
The basic principle of Cottrell's precipitator is
1 neutralisation of charge on colloidal particles
2 scattering of light
3 Le-Chatelier's principle
4 peptisation
Explanation:
In Cottrell smoke precipitator, the smoke is allowed to pass through a chamber having a series of plates charged to very high potential (20000 to \(70000 \mathrm{~V})\). Charged particles of smoke get attracted and by charged plates and the gases coming out of chimney precipitated become free of charged particles.
NEET Test Series from KOTA - 10 Papers In MS WORD
WhatsApp Here
CHXII05:SURFACE CHEMISTRY
320677
Bleeding is stopped by the application of ferric chloride. This is because:
1 The blood starts flowing in opposite direction.
2 The blood reacts and forms a solid, which seals the blood vessel.
3 The blood is coagulated and thus the blood vessel is sealed.
4 The ferric chloride seals the blood vessel.
Explanation:
Conceptual Questions
CHXII05:SURFACE CHEMISTRY
320678
The process which is responsible for the formation of delta at a place where rivers meet the sea is
1 peptization
2 colloidal formation
3 emulsification
4 coagulation
Explanation:
Conceptual Questions
KCET - 2017
CHXII05:SURFACE CHEMISTRY
320679
The basic principle of Cottrell's precipitator is
1 neutralisation of charge on colloidal particles
2 scattering of light
3 Le-Chatelier's principle
4 peptisation
Explanation:
In Cottrell smoke precipitator, the smoke is allowed to pass through a chamber having a series of plates charged to very high potential (20000 to \(70000 \mathrm{~V})\). Charged particles of smoke get attracted and by charged plates and the gases coming out of chimney precipitated become free of charged particles.
320677
Bleeding is stopped by the application of ferric chloride. This is because:
1 The blood starts flowing in opposite direction.
2 The blood reacts and forms a solid, which seals the blood vessel.
3 The blood is coagulated and thus the blood vessel is sealed.
4 The ferric chloride seals the blood vessel.
Explanation:
Conceptual Questions
CHXII05:SURFACE CHEMISTRY
320678
The process which is responsible for the formation of delta at a place where rivers meet the sea is
1 peptization
2 colloidal formation
3 emulsification
4 coagulation
Explanation:
Conceptual Questions
KCET - 2017
CHXII05:SURFACE CHEMISTRY
320679
The basic principle of Cottrell's precipitator is
1 neutralisation of charge on colloidal particles
2 scattering of light
3 Le-Chatelier's principle
4 peptisation
Explanation:
In Cottrell smoke precipitator, the smoke is allowed to pass through a chamber having a series of plates charged to very high potential (20000 to \(70000 \mathrm{~V})\). Charged particles of smoke get attracted and by charged plates and the gases coming out of chimney precipitated become free of charged particles.
320677
Bleeding is stopped by the application of ferric chloride. This is because:
1 The blood starts flowing in opposite direction.
2 The blood reacts and forms a solid, which seals the blood vessel.
3 The blood is coagulated and thus the blood vessel is sealed.
4 The ferric chloride seals the blood vessel.
Explanation:
Conceptual Questions
CHXII05:SURFACE CHEMISTRY
320678
The process which is responsible for the formation of delta at a place where rivers meet the sea is
1 peptization
2 colloidal formation
3 emulsification
4 coagulation
Explanation:
Conceptual Questions
KCET - 2017
CHXII05:SURFACE CHEMISTRY
320679
The basic principle of Cottrell's precipitator is
1 neutralisation of charge on colloidal particles
2 scattering of light
3 Le-Chatelier's principle
4 peptisation
Explanation:
In Cottrell smoke precipitator, the smoke is allowed to pass through a chamber having a series of plates charged to very high potential (20000 to \(70000 \mathrm{~V})\). Charged particles of smoke get attracted and by charged plates and the gases coming out of chimney precipitated become free of charged particles.