Question:
The number of solutions of the pair of linear equations $\tfrac{4}{3}x + 2y = 8$, $2x + 3y = 12$ will be:
The number of solutions of the pair of linear equations $\tfrac{4}{3}x + 2y = 8$, $2x + 3y = 12$ will be:
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For linear equations $a_1x+b_1y=c_1$ and $a_2x+b_2y=c_2$:
- If $\dfrac{a_1}{a_2} \neq \dfrac{b_1}{b_2}$, unique solution.
- If $\dfrac{a_1}{a_2} = \dfrac{b_1}{b_2} = \dfrac{c_1}{c_2}$, infinite solutions.
- If $\dfrac{a_1}{a_2} = \dfrac{b_1}{b_2} \neq \dfrac{c_1}{c_2}$, no solution.
Updated On: Sep 6, 2025
- Only one
- Infinite
- Two
- None
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The Correct Option is A
Solution and Explanation
Step 1: Write equations in standard form
Equation 1: $\dfrac{4}{3}x + 2y = 8 $\Rightarrow$ 4x + 6y = 24$
Equation 2: $2x + 3y = 12$
Step 2: Compare coefficients
Equation 1: $4x + 6y = 24$
Equation 2: $2x + 3y = 12$
Divide Equation 1 by 2: $2x + 3y = 12$
This is exactly Equation 2.
Step 3: Interpret result
Both equations are identical, meaning they represent the same line.
Thus, there are infinitely many solutions.
Step 4: Correction
So the correct answer is (B) Infinite.
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