The rate constant for the decomposition of \(N_2O_5\) at various temperatures is given below:
T/°C 0 20 40 60 80 105 x k/s-1 0.0787 1.70 25.7 178 2140
Draw a graph between ln k and \(\frac 1T\) and calculate the values of \(A\) and \(E_a\).
Predict the rate constant at 30 ºC and 50 ºC.
The rate constant for the decomposition of \(N_2O_5\) at various temperatures is given below:
| T/°C | 0 | 20 | 40 | 60 | 80 |
| 105 x k/s-1 | 0.0787 | 1.70 | 25.7 | 178 | 2140 |
Draw a graph between ln k and \(\frac 1T\) and calculate the values of \(A\) and \(E_a\).
Predict the rate constant at 30 ºC and 50 ºC.
Solution and Explanation
From the given data, we obtain
| T/°C | 0 | 20 | 40 | 60 | 80 |
| T/K | 273 | 293 | 313 | 333 | 353 |
| \(\frac 1T\)/K-1 | 3.66×10-3 | 3.41×10-3 | 3.19×10-3 | 3.0×10-3 | 2.83 ×10-3 |
| 105 x k/s-1 | 0.0787 | 1.70 | 25.7 | 178 | 2140 |
| ln k | - 7.147 | - 4.075 | - 1.359 | - 0.577 | 3.063 |
Slop of the line,
\(\frac {y_2-y_1}{x_2-x_1} = -12.301\ K\)
According to Arrhenius equation,
\(Slope = -\frac {E_a}{R}\)
\(E_a = - Slope \times R\)
Ea =-(-12.301 k) x (8.314 JK-1mol-1)
Ea =102.27 kJ mol-1
Again,
\(ln\ k = ln \ A-\frac {E_a}{RT}\)
\(ln\ A = ln \ k-\frac {E_a}{RT}\)
\(When\ T = 273\ k\)
\(ln \ k = -7.147\)
Then,
\(ln\ A = - 7.17 + \frac {102.27 \times 10^3}{8.314 \times 2.73}\)
= \(37.911\)
Therefore, \(A = 2.91 \times 10^6\)
when T = 30+273 K = 303 K
\(\frac 1T\) = 0.0033 K = 3.3 x 10-3 K
Then,
At \(\frac 1T\) = 3.3 x 10-3 K
ln k = - 2.8
Therefore, \(k = 6.08 \times 10^{-2} s^{-1}\)
Again when T = 50 + 273 = 323 K
\(\frac 1T\) = 0.0031 K = 3.1 x 10-3 K
Then,
At \(\frac 1T\) = 3.1 x 10-3 K
ln k = - 0.5
Therefore, \(k = 0.607 \ s^{-1}\)
Top Questions on Chemical Kinetics
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Questions Asked in CBSE CLASS XII exam
"There is widely spatial variation in different sectors of work participation in India." Evaluate the statement with suitable examples.
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- Population
Alexia Limited invited applications for issuing 1,00,000 equity shares of ₹ 10 each at premium of ₹ 10 per share.
The amount was payable as follows:- On application ₹ 9 per share (Including premium ₹ 6 per share)
- On allotment ₹ 8 per share (Including premium ₹ 4 per share)
- On first and final call ₹ 3 per share.
Applications were received for 1,50,000 equity shares and allotment was made to the applicants as follows:
Category A: Applicants for 90,000 shares were allotted 70,000 shares.
Category B: Applicants for 60,000 shares were allotted 30,000 shares.
Excess money received on application was adjusted towards allotment and first and final call.
Shekhar, who had applied for 1200 shares failed to pay the first and final call. Shekhar belonged to category B.
Pass necessary journal entries for the above transactions in the books of Alexia Limited. Open calls in arrears and calls in advance account, wherever necessary.- Shweta mixed two liquids A and B of 10 mL each. After mixing, the volume of the solution was found to be 20.2 mL.
(i) Why was there a volume change after mixing the liquids?
(ii) Will there be an increase or decrease of temperature after mixing?
(iii) Give one example for this type of solution.- CBSE CLASS XII - 2025
- Solutions
On $31^{\text {st }}$ March, 2024, following is the Balance Sheet of Bhavik Limited :
Bhavik Ltd.
Balance Sheet as at $31^{\text {st }}$ March 2024
I. Equity and Liabilities :
Particulars Note No. $31-3-2024$ (₹) $31-3-2023$ (₹) 1. Shareholders funds (a) Share Capital 12,00,000 10,00,000 (b) Reserves and Surplus 1 4,00,000 3,00,000 2. Non-current liabilities Long-term borrowings 2 6,00,000 10,00,000 3. Current Liabilities 5,00,000 1,00,000 (a) Trade Payables 3 3,00,000 4,00,000 (b) Short-term provisions Total 30,00,000 28,00,000 II. Assets :
1. Non-current Assets (a) Property, Plant and Equipment and Intangible Assets Property plant and equipment 4 19,00,000 15,00,000 (b) Non-current Investments 3,00,000 4,00,000 2. Current Assets (a) Inventories 4,50,000 3,50,000 (b) Trade Receivables 2,50,000 4,50,000 (c) Cash and Cash Equivalents 1,00,000 1,00,000 Total 30,00,000 28,00,000 Notes to Accounts :
Note Particulars $31-3-2024$ (₹) $31-3-2023$ (₹) No. 1. Reserves and Surplus i.e. Balance in Statement of Profit and Loss 4,00,000 3,00,000 2. Long-term borrowings 10% Debentures 6,00,000 10,00,000 3. Short-term provisions Provision for tax 3,00,000 4,00,000 4. Property plant and equipment Plant and Machinery 21,50,000 16,00,000 Less : Accumulated Depreciation 2,50,000 1,00,000 19,00,000 15,00,000 Additional Information :
- During the year, a piece of machinery costing ₹ 8,00,000 with accumulated depreciation of ₹ 50,000 was sold for ₹ 6,50,000.
- Debentures were redeemed on $31^{\text {st }}$ March, 2024.
Calculate :
- Cash flows from Investing Activities
- Cash flows from Financing Activities
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Concepts Used:
Rate of a Chemical Reaction
The rate of a chemical reaction is defined as the change in concentration of any one of the reactants or products per unit time.
Consider the reaction A → B,
Rate of the reaction is given by,
Rate = −d[A]/ dt=+d[B]/ dt
Where, [A] → concentration of reactant A
[B] → concentration of product B
(-) A negative sign indicates a decrease in the concentration of A with time.
(+) A positive sign indicates an increase in the concentration of B with time.
Factors Determining the Rate of a Reaction:
There are certain factors that determine the rate of a reaction:
- Temperature
- Catalyst
- Reactant Concentration
- Chemical nature of Reactant
- Reactant Subdivision rate