Life of bulbs produced by two factories A and B are given below: -

Question

Life of bulbs produced by two factories A and B are given below:

Length of life (in hours):	550–650	650–750	750–850	850–950	950–1050
Factory A: (Number of bulbs)	10	22	52	20	16
Factory B: (Number of bulbs)	8	60	24	16	12

The bulbs of which factory are more consistent from the point of view of length of life?

shaalaa.com · Accepted Answer

For factory ALet the assumed mean A = 800 and h = 100. Length of Life(in hours) Mid-Values $$\left( x_i \right)$$ $$u_i = \frac{x_i - 800}{100}$$ $$u_i^2$$ Number of bulbs $$\left( f_i \right)$$ $$f_i u_i$$ $$f_i u_i^2$$ 550&ndash;650 600 &minus;2 4 10 &minus;20 40 650&ndash;750 700 &minus;1 1 22 &minus;22 22 750&ndash;850 800 0 0 52 0 0 850&ndash;950 900 1 1 20 20 20 950&ndash;1050 1000 2 4 16 32 64 $$\sum_{} f_i = 120$$ $$\sum_{} f_i u_i = 10$$ $$\sum_{} f_i u_i^2 = 146$$ Mean, $$X_A = A + h\left( \frac{\sum_{} f_i u_i}{\sum_{} f_i} \right) = 800 + 100 \times \frac{10}{120} = 808 . 33$$ Standard deviation, $$\sigma_A = h\sqrt{\left( \frac{\sum_{} f_i u_i^2}{\sum_{} f_i} \right) - \left( \frac{\sum_{} f_i u_i}{\sum_{} f_i} \right)^2} = 100\sqrt{\left( \frac{146}{120} \right) - \left( \frac{10}{120} \right)^2} = 100 \times 1 . 0998 = 109 . 98$$ &there4; Coefficient of variation = $$\frac{\sigma_A}{X_A} \times 100 = \frac{109 . 98}{808 . 33} \times 100 = 13 . 61$$ For factory BLet the assumed mean A = 800 and h = 100. Length of Life(in hours) Mid-Values $$\left( x_i \right)$$ $$u_i = \frac{x_i - 800}{100}$$ $$u_i^2$$ Number of bulbs $$\left( f_i \right)$$ $$f_i u_i$$ $$f_i u_i^2$$ 550&ndash;650 600 &minus;2 4 8 &minus;16 32 650&ndash;750 700 &minus;1 1 60 &minus;60 60 750&ndash;850 800 0 0 24 0 0 850&ndash;950 900 1 1 16 16 16 950&ndash;1050 1000 2 4 12 24 48 $$\sum_{}f_i = 120$$ $$\sum_{} f_i u_i = - 36$$ $$\sum_{} f_i u_i^2 = 156$$ Mean, $$X_B = A + h\left( \frac{\sum_{} f_i u_i}{\sum_{} f_i} \right) = 800 + 100 \times \frac{\left( - 36 \right)}{120} = 800 - 30 = 770$$ Standard deviation, $$\sigma_B = h\sqrt{\left( \frac{\sum_{} f_i u_i^2}{\sum_{} f_i} \right) - \left( \frac{\sum_{} f_i u_i}{\sum_{} f_i} \right)^2} = 100\sqrt{\left( \frac{156}{120} \right) - \left( \frac{- 36}{120} \right)^2} = 100 \times 1 . 1 = 110$$ &there4; Coefficient of variation = $$\frac{\sigma_B}{X_B} \times 100 = \frac{110}{770} \times 100 = 14 . 29$$ Since the coefficient of variation of factory B is greater than the coefficient of variation of factory A, therefore, factory B has more variability than factory A. This means bulbs of factory A are more consistent from the point of view of length of life.

X:	35	54	52	53	56	58	52	50	51	49
Y:	108	107	105	105	106	107	104	103	104	101

Life of bulbs produced by two factories A and B are given below: - Mathematics

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Length of Life (in hours)	Mid-Values \[\left( x_i \right)\]	\[u_i = \frac{x_i - 800}{100}\]	\[u_i^2\]	Number of bulbs \[\left( f_i \right)\]	\[f_i u_i\]	\[f_i u_i^2\]
550–650	600	−2	4	10	−20	40
650–750	700	−1	1	22	−22	22
750–850	800	0	0	52	0	0
850–950	900	1	1	20	20	20
950–1050	1000	2	4	16	32	64
				\[\sum_{} f_i = 120\]	\[\sum_{} f_i u_i = 10\]	\[\sum_{} f_i u_i^2 = 146\]

Ravi:	25	50	45	30	70	42	36	48	35	60
Hashina:	10	70	50	20	95	55	42	60	48	80

Life of bulbs produced by two factories A and B are given below: - Mathematics

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