Q.58 If a bacterial culture with a doubling time of 30 minutes starts with two cells, then the number of cells after 4 hours are _______.

Q.58 If a bacterial culture with a doubling time of 30 minutes starts with two cells, then
the number of cells after 4 hours are _______.

Bacterial cultures exhibit exponential growth during binary fission, where the population doubles every generation. With a doubling time of 30 minutes starting from two cells, the culture reaches 512 cells after 4 hours. This calculation uses the formula N=N0×2n, where n is the number of generations.

Step-by-Step Calculation

Convert 4 hours to minutes: 4×60=240 minutes. Divide by doubling time: n=240/30=8 generations.

Starting with N0=2 cells, apply the exponential growth equation: N=2×28.

Since 28=256, final count is 2×256=512 cells. Track growth: after 1st (30 min): 4 cells; 2nd: 8; up to 8th: 512.

Growth Pattern Table

Time (hours) Generations Cells
0 0 2
1 4 32
2 8 512
3 12 8192
4 16 131072

Common MCQ Options Explained

No explicit options appear in the query, but CSIR NET-style questions often include distractors like 256, 1024, or 64. Option like 256 mistakes initial 1 cell instead of 2, yielding 1×28=256.

Choices like 1024 assume 9 generations (2×29=1024), ignoring exact 240/30=8. Linear growth errors (e.g., 16 cells) fail to account for compounding.

CSIR NET Exam Relevance

This tests microbial growth kinetics in Unit 1 (Cellular Organization) of CSIR NET Life Sciences. Understand phases: lag, log (exponential), stationary, death—focus here is log phase.

Practice variations: if doubling time 20 min, n=12, cells=8192. Use for quantitative genetics, biotech culture optimization.

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