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There are only r red counters and g green counters in a bag - Edexcel - GCSE Maths - Question 5 - 2019 - Paper 1
Question 5
There are only r red counters and g green counters in a bag. A counter is taken at random from the bag. The probability that the counter is green is \(\frac{3}{7}\)... show full transcript
Worked Solution & Example Answer:There are only r red counters and g green counters in a bag - Edexcel - GCSE Maths - Question 5 - 2019 - Paper 1
Step 1
Step 2
Find a second relationship between r and g
Answer
After adding 2 red counters and 3 green counters, the new counts will be ( r + 2 ) and ( g + 3 ). The probability that the counter is green is now:
[ \frac{g + 3}{(r + 2) + (g + 3)} = \frac{6}{13} ]
This simplifies to:
[ \frac{g + 3}{r + g + 5} = \frac{6}{13} ]
Cross-multiplying gives us:
[ 13(g + 3) = 6(r + g + 5) ]
Expanding:
[ 13g + 39 = 6r + 6g + 30 ]
Rearranging terms leads to:
[ 7g - 6r = -9 ]
Step 3
Solve the equations to find r and g
Answer
We now have the system of equations:
- ( 4g = 3r )
- ( 7g - 6r = -9 )
We can express r in terms of g from the first equation:
[ r = \frac{4}{3}g ]
Substituting this into the second equation:
[ 7g - 6\left(\frac{4}{3}g\right) = -9 ]
This simplifies to:
[ 7g - 8g = -9 ]
[ -g = -9 ]
Thus,
[ g = 9 ]
Substituting back to find r:
[ r = \frac{4}{3} \times 9 = 12 ]
Therefore, the original counts are:
- Red counters: 12
- Green counters: 9