For a chemical reaction A + B —q Product. the order is 1 with respect to A and B. What is the value of x and y?Rate
mol L-1S-1 [A]
mol L-1 [B]
mol L-1 0.10 20 0.5 0.40 x 0.5 0.80 40 y
| Rate mol L-1S-1 | [A] mol L-1 | [B] mol L-1 |
| 0.10 | 20 | 0.5 |
| 0.40 | x | 0.5 |
| 0.80 | 40 | y |
- 80 and 4
- 160 and 4
- 40 and 4
- 80 and 2
The Correct Option is D
Solution and Explanation
Given: The reaction \( A + B \to \text{Product} \) is first order with respect to both \( A \) and \( B \). The rate law is:
\[ r = k[A][B] \]
where:
- \( r \): Rate of the reaction
- \( k \): Rate constant
- \( [A] \) and \( [B] \): Concentrations of \( A \) and \( B \), respectively
Step 1: Set Up Equations
Using the given data, we can write the following equations:
- \( 0.10 = k(20)(0.5) \) — (1)
- \( 0.40 = k(x)(0.5) \) — (2)
- \( 0.80 = k(40)(Y) \) — (3)
Step 2: Solve for \( x \)
Divide equation (2) by equation (1):
\[ \frac{0.40}{0.10} = \frac{k(x)(0.5)}{k(20)(0.5)} \]
Simplify:
\[ 4 = \frac{x}{20} \quad \Rightarrow \quad x = 4 \times 20 = 80 \]
Step 3: Solve for \( Y \)
Divide equation (3) by equation (1):
\[ \frac{0.80}{0.10} = \frac{k(40)(Y)}{k(20)(0.5)} \]
Simplify:
\[ 8 = \frac{40Y}{10} \quad \Rightarrow \quad 80 = 40Y \quad \Rightarrow \quad Y = \frac{80}{40} = 2 \]
Final Answer:
The values of \( x \) and \( Y \) are 80 and 2, respectively.
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