315489
Hydrogen behaves as an oxidising agent in its reaction with
1 \(\mathrm{\mathrm{Cl}_{2}}\)
2 \(\mathrm{N_{2}}\)
3 \(\mathrm{\mathrm{Na}}\)
4 \(\mathrm{S}\)
Explanation:
Conceptual Questions
CHXI09:HYDROGEN
315490
Hydrogen adsorbed on palladium is known as
1 Nascent hydrogen
2 heavy hydrogen
3 Atomic hydrogen
4 occluded hydrogen
Explanation:
Conceptual Questions
CHXI09:HYDROGEN
315491
Which can adsorb largest volumes of hydrogen gas?
1 Colloidal solution of palladium
2 Finely divided nickel
3 Colloidal ferric hydroxide
4 Finely divided platinum
Explanation:
Generally, the surface areas are larger for colloids at given volume and they exhibit excellent adsorbent. An excellent adsorbent hydrogen gas is palladium. Therefore, colloidal solutions of palladium could adsorb greater volume of hydrogen gas as the surface area of palladium is the most colloidal solution of palladium. If the surface area of the catalyst is more, the volume of hydrogen adsorbed would be larger
CHXI09:HYDROGEN
315492
Dihydrogen on reaction with oxygen gives water and the reaction is
315489
Hydrogen behaves as an oxidising agent in its reaction with
1 \(\mathrm{\mathrm{Cl}_{2}}\)
2 \(\mathrm{N_{2}}\)
3 \(\mathrm{\mathrm{Na}}\)
4 \(\mathrm{S}\)
Explanation:
Conceptual Questions
CHXI09:HYDROGEN
315490
Hydrogen adsorbed on palladium is known as
1 Nascent hydrogen
2 heavy hydrogen
3 Atomic hydrogen
4 occluded hydrogen
Explanation:
Conceptual Questions
CHXI09:HYDROGEN
315491
Which can adsorb largest volumes of hydrogen gas?
1 Colloidal solution of palladium
2 Finely divided nickel
3 Colloidal ferric hydroxide
4 Finely divided platinum
Explanation:
Generally, the surface areas are larger for colloids at given volume and they exhibit excellent adsorbent. An excellent adsorbent hydrogen gas is palladium. Therefore, colloidal solutions of palladium could adsorb greater volume of hydrogen gas as the surface area of palladium is the most colloidal solution of palladium. If the surface area of the catalyst is more, the volume of hydrogen adsorbed would be larger
CHXI09:HYDROGEN
315492
Dihydrogen on reaction with oxygen gives water and the reaction is
315489
Hydrogen behaves as an oxidising agent in its reaction with
1 \(\mathrm{\mathrm{Cl}_{2}}\)
2 \(\mathrm{N_{2}}\)
3 \(\mathrm{\mathrm{Na}}\)
4 \(\mathrm{S}\)
Explanation:
Conceptual Questions
CHXI09:HYDROGEN
315490
Hydrogen adsorbed on palladium is known as
1 Nascent hydrogen
2 heavy hydrogen
3 Atomic hydrogen
4 occluded hydrogen
Explanation:
Conceptual Questions
CHXI09:HYDROGEN
315491
Which can adsorb largest volumes of hydrogen gas?
1 Colloidal solution of palladium
2 Finely divided nickel
3 Colloidal ferric hydroxide
4 Finely divided platinum
Explanation:
Generally, the surface areas are larger for colloids at given volume and they exhibit excellent adsorbent. An excellent adsorbent hydrogen gas is palladium. Therefore, colloidal solutions of palladium could adsorb greater volume of hydrogen gas as the surface area of palladium is the most colloidal solution of palladium. If the surface area of the catalyst is more, the volume of hydrogen adsorbed would be larger
CHXI09:HYDROGEN
315492
Dihydrogen on reaction with oxygen gives water and the reaction is
315489
Hydrogen behaves as an oxidising agent in its reaction with
1 \(\mathrm{\mathrm{Cl}_{2}}\)
2 \(\mathrm{N_{2}}\)
3 \(\mathrm{\mathrm{Na}}\)
4 \(\mathrm{S}\)
Explanation:
Conceptual Questions
CHXI09:HYDROGEN
315490
Hydrogen adsorbed on palladium is known as
1 Nascent hydrogen
2 heavy hydrogen
3 Atomic hydrogen
4 occluded hydrogen
Explanation:
Conceptual Questions
CHXI09:HYDROGEN
315491
Which can adsorb largest volumes of hydrogen gas?
1 Colloidal solution of palladium
2 Finely divided nickel
3 Colloidal ferric hydroxide
4 Finely divided platinum
Explanation:
Generally, the surface areas are larger for colloids at given volume and they exhibit excellent adsorbent. An excellent adsorbent hydrogen gas is palladium. Therefore, colloidal solutions of palladium could adsorb greater volume of hydrogen gas as the surface area of palladium is the most colloidal solution of palladium. If the surface area of the catalyst is more, the volume of hydrogen adsorbed would be larger
CHXI09:HYDROGEN
315492
Dihydrogen on reaction with oxygen gives water and the reaction is
