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Which statement best describes the relationship between period and frequency of light waves? A) In wave B the period increases and the frequency decreases from wave A. B) In wave A the period increases and the frequency decreases from wave B. C) In wave B the period is shorter and the frequency is greater than in wave A. D) In wave A the period is shorter and the frequency is greater than in wave B.

2 Answers

4 votes

Final answer:

The period and frequency of light waves are inversely related; when one increases, the other decreases. The correct relationship is that a shorter period corresponds to a higher frequency.

Step-by-step explanation:

The relationship between period and frequency of light waves is that they are inversely related. When the period of a light wave increases, its frequency decreases, and vice versa. Considering this, the correct statement describing the relationship would be: In wave B the period is shorter, and the frequency is greater than in wave A. Hence, the correct answer is C) In wave B the period is shorter and the frequency is greater than in wave A.

User Jorvis
by
7.9k points
4 votes

Answer:

A) In wave B the period increases and the frequency decreases from wave A.

Step-by-step explanation:

The quantities "frequency" and "period" are inversely related.

This means when one increase the other decrease.

The relationship between period and frequency of light waves is best described by: In wave B the period increases and the frequency decreases from wave A.

User RKumsher
by
7.7k points

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