315718
The low density of ice compared to water is due to
1 Hydrogen bonding interactions
2 Dipole - dipole interactions
3 Dipole - induced dipole interactions
4 Induced dipole - induced dipole interactions
Explanation:
It is due to hydrogen bonding when \(\mathrm{\mathrm{H}_{2} \mathrm{O}}\) forms a cage like structure in solid ice and density reduced.
CHXI09:HYDROGEN
315719
Two ice cubes are pressed over each other until they unite to form one block. Which one of the following forces dominates for holding them together?
1 Dipole-dipole interaction
2 Van der waals' forces
3 Hydrogen bond formation
4 Covalent attraction
Explanation:
It is due to H - bonding.
CHXI09:HYDROGEN
315720
When two ice cubes are pressed over each other, they unite to form one cube. Which of the following forces is responsible to hold them together?
1 Hydrogen bond formation
2 Dative bond formation
3 Covalent attraction
4 Ionic interaction
Explanation:
Two ice cubes stick to each other due to H-bonding.
CHXI09:HYDROGEN
315721
The M.P of most the solid substances increase with an increase of Pressure. However ice melts at a temperature lower than its usual melting point when pressure is increased. This is because
1 Ice is less denser than \(\mathrm{\mathrm{H}_{2} \mathrm{O}}\)
2 Pressure generates heat
3 The chemical bonds break under pressure
4 Ice is not a true solid
Explanation:
Ice occupy more volume than liquid water \(\mathrm{(}\) Ice \(\mathrm{\rightleftharpoons}\) water \(\mathrm{)}\). Increase of pressure favours forward reaction (Le-Chatelier's principle).
315718
The low density of ice compared to water is due to
1 Hydrogen bonding interactions
2 Dipole - dipole interactions
3 Dipole - induced dipole interactions
4 Induced dipole - induced dipole interactions
Explanation:
It is due to hydrogen bonding when \(\mathrm{\mathrm{H}_{2} \mathrm{O}}\) forms a cage like structure in solid ice and density reduced.
CHXI09:HYDROGEN
315719
Two ice cubes are pressed over each other until they unite to form one block. Which one of the following forces dominates for holding them together?
1 Dipole-dipole interaction
2 Van der waals' forces
3 Hydrogen bond formation
4 Covalent attraction
Explanation:
It is due to H - bonding.
CHXI09:HYDROGEN
315720
When two ice cubes are pressed over each other, they unite to form one cube. Which of the following forces is responsible to hold them together?
1 Hydrogen bond formation
2 Dative bond formation
3 Covalent attraction
4 Ionic interaction
Explanation:
Two ice cubes stick to each other due to H-bonding.
CHXI09:HYDROGEN
315721
The M.P of most the solid substances increase with an increase of Pressure. However ice melts at a temperature lower than its usual melting point when pressure is increased. This is because
1 Ice is less denser than \(\mathrm{\mathrm{H}_{2} \mathrm{O}}\)
2 Pressure generates heat
3 The chemical bonds break under pressure
4 Ice is not a true solid
Explanation:
Ice occupy more volume than liquid water \(\mathrm{(}\) Ice \(\mathrm{\rightleftharpoons}\) water \(\mathrm{)}\). Increase of pressure favours forward reaction (Le-Chatelier's principle).
315718
The low density of ice compared to water is due to
1 Hydrogen bonding interactions
2 Dipole - dipole interactions
3 Dipole - induced dipole interactions
4 Induced dipole - induced dipole interactions
Explanation:
It is due to hydrogen bonding when \(\mathrm{\mathrm{H}_{2} \mathrm{O}}\) forms a cage like structure in solid ice and density reduced.
CHXI09:HYDROGEN
315719
Two ice cubes are pressed over each other until they unite to form one block. Which one of the following forces dominates for holding them together?
1 Dipole-dipole interaction
2 Van der waals' forces
3 Hydrogen bond formation
4 Covalent attraction
Explanation:
It is due to H - bonding.
CHXI09:HYDROGEN
315720
When two ice cubes are pressed over each other, they unite to form one cube. Which of the following forces is responsible to hold them together?
1 Hydrogen bond formation
2 Dative bond formation
3 Covalent attraction
4 Ionic interaction
Explanation:
Two ice cubes stick to each other due to H-bonding.
CHXI09:HYDROGEN
315721
The M.P of most the solid substances increase with an increase of Pressure. However ice melts at a temperature lower than its usual melting point when pressure is increased. This is because
1 Ice is less denser than \(\mathrm{\mathrm{H}_{2} \mathrm{O}}\)
2 Pressure generates heat
3 The chemical bonds break under pressure
4 Ice is not a true solid
Explanation:
Ice occupy more volume than liquid water \(\mathrm{(}\) Ice \(\mathrm{\rightleftharpoons}\) water \(\mathrm{)}\). Increase of pressure favours forward reaction (Le-Chatelier's principle).
315718
The low density of ice compared to water is due to
1 Hydrogen bonding interactions
2 Dipole - dipole interactions
3 Dipole - induced dipole interactions
4 Induced dipole - induced dipole interactions
Explanation:
It is due to hydrogen bonding when \(\mathrm{\mathrm{H}_{2} \mathrm{O}}\) forms a cage like structure in solid ice and density reduced.
CHXI09:HYDROGEN
315719
Two ice cubes are pressed over each other until they unite to form one block. Which one of the following forces dominates for holding them together?
1 Dipole-dipole interaction
2 Van der waals' forces
3 Hydrogen bond formation
4 Covalent attraction
Explanation:
It is due to H - bonding.
CHXI09:HYDROGEN
315720
When two ice cubes are pressed over each other, they unite to form one cube. Which of the following forces is responsible to hold them together?
1 Hydrogen bond formation
2 Dative bond formation
3 Covalent attraction
4 Ionic interaction
Explanation:
Two ice cubes stick to each other due to H-bonding.
CHXI09:HYDROGEN
315721
The M.P of most the solid substances increase with an increase of Pressure. However ice melts at a temperature lower than its usual melting point when pressure is increased. This is because
1 Ice is less denser than \(\mathrm{\mathrm{H}_{2} \mathrm{O}}\)
2 Pressure generates heat
3 The chemical bonds break under pressure
4 Ice is not a true solid
Explanation:
Ice occupy more volume than liquid water \(\mathrm{(}\) Ice \(\mathrm{\rightleftharpoons}\) water \(\mathrm{)}\). Increase of pressure favours forward reaction (Le-Chatelier's principle).
