1
NEET 2019
MCQ (Single Correct Answer)
+4
-1
Change Language
For an ideal solution, the correct option is :
A
$$\Delta $$mixH = 0 at constant T and P
B
$$\Delta $$mixG = 0 at constant T and P
C
$$\Delta $$mixS = 0 at constant T and P
D
$$\Delta $$mixV $$ \ne $$ 0 at constant T and P
2
NEET 2019
MCQ (Single Correct Answer)
+4
-1
Change Language
For the cell reaction
2Fe3+(aq) + 2I (aq) $$ \to $$ 2Fe2+(aq) + I2(aq)
$${E_{cell}^\Theta }$$ = 0.24 V at 298 K. The standard Gibbs energy ($$\Delta $$rGo) of the cell reaction is :
[Given that Faraday constant F = 96500 C mol–1]
A
46.32 kJ mol–1
B
23.16 kJ mol–1
C
–46.32 kJ mol–1
D
–23.16 kJ mol–1
3
NEET 2019
MCQ (Single Correct Answer)
+4
-1
Change Language
If the rate constant for a first order reaction is k, the time (t) required for the completion of 99 % of the reaction is given by :
A
$$t = {{4.606} \over k}$$
B
$$t = {{2.303} \over k}$$
C
$$t = {{0.693} \over k}$$
D
$$t = {{6.909} \over k}$$
4
NEET 2019
MCQ (Single Correct Answer)
+4
-1
Change Language
For the chemical reaction
N2(g) + 3H2(g) ⇌ 2NH3(g)
the correct option is :
A
$$ - {{d\left[ {{N_2}} \right]} \over {dt}} = 2{{d\left[ {N{H_3}} \right]} \over {dt}}$$
B
$$ - {{d\left[ {{N_2}} \right]} \over {dt}} = {1 \over 2}{{d\left[ {N{H_3}} \right]} \over {dt}}$$
C
$$3{{d\left[ {{H_2}} \right]} \over {dt}} = 2{{d\left[ {N{H_3}} \right]} \over {dt}}$$
D
$$ - {1 \over 3}{{d\left[ {{H_2}} \right]} \over {dt}} = -{1 \over 2}{{d\left[ {N{H_3}} \right]} \over {dt}}$$
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