Which of the following pairs consitutes a buffer?
HNO2 and NaNO2
NaOH and NaCl
HNO3 and NH4NO3
HNO3 and NH4NO3
The hydrogen ion concentration of a 10-8 M HCL aqueous solution at 298 K (Kw = 10-14) is:
1.0 x 10-6
1.0525 x 10-7 M
9.525 x 10-8 M
9.525 x 10-8 M
Which of the following, not a correct statement?
The electron -deficient molecules can act as Lewis acids
The canonical structures have no real existence
Every AB5 molecules does, in fact, have square pyramid structure
Every AB5 molecules does, in fact, have square pyramid structure
C.
Every AB5 molecules does, in fact, have square pyramid structure
Every AB5 molecule does not, in fact, have square pyramidal structure but AB5 molecules have trigonal bipyramidal structures due to sp3d hybridisation.
HgCl2 and I2 both when dissolved in water containing I– ions the pair of species formed is
HgI2 , I3-
Hgl2, I-
HgI43-, I3-
HgI43-, I3-
When 750 mL of 0.5 M HCl is mixed with 250 mL of 2 M NaOH solution, the value of pH will be
pH = 7
pH > 7
pH < 7
pH = 0
Aqueous solution of AlCl3 is acidic towards litmus while of NaCl is not. The correct reason behind this is
AlCl3, furnishes OH- ion in the solution
AlCl3, furnishes H+ ion in the solution
AlCl3, furnishes both H+ well as OH- ion in the solution
AlCl3, is the salt of strong base and strong acid
The melting point of solid substances is directly proportional to pressure acting on them. However, ice-melts at a temperature lower than its usual melting point, when the pressure increases. This is because
ice is not a true solid
the bonds break under pressure
ice is less denser than water
pressure generates heat
100 mL of a solution contains 2 g of acetic acid and 3g of sodium acetate providing Ka =1.8 x 10-5 , then choose the correct option.
This solution is basic in nature
This solution is acidic in nature
This solution is amphoteric in nature
This solution is neutral in nature
Both Mg and Fe metal can reduce copper from a solution having Cu2+ ion, according to equilibria.
Mg(s) + Cu2+ Mg2+ + Cu(s); K1 = 6 x 1090
Fe(s) + Cu2+ Fe2+ + Cu(s); K2 = 3 x 1026
Choose the correct option regarding above equilibrium
Mg removes more Cu2+ from solution
Fe removes more Cu2+ from solution
Both will equally remove Cu2+ from solution
Both metals cannot remove Cu2+ from solution