Download App

Electrochemistry — Chemistry STD 12 Science — Question

Bihar BoardEnglish MediumSTD 12 ScienceChemistryElectrochemistry5 Marks
Question
Match the terms given in Column I with the units given in Column II.
 
Column I
 
Column II
i.
m
a.
S cm-1
ii.
ECell
b.
m-
iii.
K
c.
S cm2 mol-1
iv.
G*
d.
V

Answer

 
Column I
 
Column II
i.
m
c.
 S cm2 mol-1
ii.
ECell
d.
 V
iii.
K
a.
S cm-1
iv.
G*
b.
 m-

Need a full question paper?

Generate a complete, print-ready paper with questions like this in minutes — across 16+ boards, with answer keys.

Start Generating Free

Explore more

More "Long Answer Type Questions [5M]" from ElectrochemistryElectrochemistry — all question typesChemistry STD 12 Science question papersBihar Board STD 12 Science question papersBihar Board question paper generator

Similar questions

(a). While giving intravenous injections to the patients, the doctors take utmost care of the concentration of the solution used. Why is it necessary to check the concentration of the solution?
(b). A solution of phenol was obtained by dissolving 2X 10-2 kg of phenol in 1 kg of benzene. Experimentally it was found to be 73% associated. Calculate the depression in the freezing point recorded.
Explain the following reaction:
$ n-BuBr + KCN \xrightarrow{EtOH-H_2O} n-BuCN $
Vapour pressures of pure acetone and chloroform at 328 K are 741.8 mm Hg and 632.8 mm Hg respectively. Assuming that they form ideal solution over the entire range of composition, plot $p_{\text {total }}, p_{\text {chloroform }}$ and $p_{\text {acetone }}$ as a function of $x_{\text {acetone }}$ The experimental data observed for different compositions of mixture is :
$100 \times x_{\text {acetone }}$011.823.436.050.858.264.572.1
$p_{\text {acetone }} / mm Hg$054.9110.1202.4322.7405.9454.1521.1
$p_{\text {chloroform }} / mm Hg$632.8548.1469.4359.7257.7193.6161.2120.7
Plot this data also on the same graph paper. Indicate whether it has positive deviation or negative deviation from the ideal solution.
From the rate expression for the following reactions, determine their order of reaction and the dimensions of the rate constants.
(i) $3 NO ( g ) \rightarrow N _2 O ( g ) ; \quad$ Rate $= k [ NO ]^2$
(ii) $\begin{array}{r} H _2 O _2( aq )+3 I ^{-}( aq )+2 H ^{+} \rightarrow 2 H _2 O ( l )+ I _3^{-} ; \text {Rate }= k \left[ H _2 O _2 \mid\left[ I ^{-}\right]\right.\end{array}$
(iii) $\begin{aligned} CH _3 CHO ( g ) \rightarrow CH _4(g)+ CO ( g ) ; \text { Rate }= k \left[ CH _3 CHO \right]^{3 / 2}\end{aligned}$
(iv) $\begin{aligned} C _2 H _5 Cl ( g ) \rightarrow C _2 H _4(g) & + HCl ( g ) \ \text { Rate }= k \left[ C _2 H _5 Cl \right]\end{aligned}$
  1. Answer the following questions briefly:
  1. What are any two good sources of vitamin A?
  2. What are nucleotides?
  3. Give an example of simple lipids.
  1. How are carbohydrates classified?
How will you distinguish $1^{\circ}, 2^{\circ}$ and $3^{\circ}$ alcohols by Victor Mayer Test? Explain.
Derive the Nernst equation and explain how $E_{\text {cell }}^{\circ}$ depends on concentration of ions.
Discuss the different chemical properties of amines.
Calculate the depression in the freezing point of water when 10 g of CH3CH2CHClCOOH is added to 250 g of water. Ka = 1.4 × 10–3, Kf = 1.86 K kg mol–1.
Mention the IUPAC rule used to write the formulas of mononuclear coordination compounds.