The following table was written after using sieve analysis method on a paracetamol powder. Sieve analysis results (for 500 g of paracetamol powder). Mass retained on sieve (g) Sieve diameter Frequency (%) Undersize Oversize (um) cumulative cumulative frequency (%) frequency (%) 0. 20 4 0. 100 63 25 4. 96 125 75 15 6. 91 250 125 25 24 76 375 150 30 49 51 500 70 14 79 21 570 30 6. 93 1000 1 99 >1000 0. 100 Questions: D Use the data given in the table to draw a diagram and mention all the details in it. 2) Explain the diagram.

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Chapter1: Chemical Foundations
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Experiments 1:
The following table was written after using sieve analysis method on a paracetamol powder.
Sieve analysis results (for 500 g of paracetamol powder).
Sieve diameter
(um)
Mass retained
Frequency (%)
Undersize
cumulative
Oversize
on sieve (g)
cumulative
frequency (%)
frequency (%)
100
0.
20
4
63
25
4.
96
125
75
15
6.
91
250
125
25
24
76
375
150
30
49
51
500
70
14
79
21
570
30
6.
93
7.
1000
1.
99
>1000
0.
100
Questions:
DUse the data given in the table to draw a diagram and mention all the details in it.
2) Explain the diagram.
3) What quantity of a 40% w/v solution would be required to produce 1 liter of a l in 1000
solution?
Note: 1 in 1000 =16 n 1000 mL
Transcribed Image Text:Experiments 1: The following table was written after using sieve analysis method on a paracetamol powder. Sieve analysis results (for 500 g of paracetamol powder). Sieve diameter (um) Mass retained Frequency (%) Undersize cumulative Oversize on sieve (g) cumulative frequency (%) frequency (%) 100 0. 20 4 63 25 4. 96 125 75 15 6. 91 250 125 25 24 76 375 150 30 49 51 500 70 14 79 21 570 30 6. 93 7. 1000 1. 99 >1000 0. 100 Questions: DUse the data given in the table to draw a diagram and mention all the details in it. 2) Explain the diagram. 3) What quantity of a 40% w/v solution would be required to produce 1 liter of a l in 1000 solution? Note: 1 in 1000 =16 n 1000 mL
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