Which of the following statements are true statements about nodal and antinodal points in light interference patterns? Antinodes result from constructive interference. Nodes result from destructive interference. The nodal points on an interference pattern are positioned along lines; these lines are called nodal lines. The central line on the interference pattern is a nodal line. Points on nodal lines would be represented by bright spots if projected onto a screen. The path difference for points on the central antinodal line would be 0. The path difference for points on the first antinodal line would be 1 cm. (This question presumes that the interference pattern is a water interference pattern.) If the path difference for points on the first antinodal line is 5 cm, then the path difference for points on the second antinodal line would be 7 cm. (This question presumes that the interference pattern is a water interference pattern.) If the path difference for points on the first antinodal line is 5 cm, then the path difference for points on the third antinodal line would be 15 cm. (This question presumes that the interference pattern is a water interference pattern.) If the path difference for points on the first antinodal line is 6 cm, then the path difference for points on the second nodal line would be 9 cm. (NOTE: the second nodal line is considered to be the second nodal line to the left or right from the central antinodal line.) (This question presumes that the interference pattern is a water interference pattern.) If the path difference for points on the first nodal line is 4 cm, then the path difference for points on the third nodal line would be 12 cm. (NOTE: the third nodal line is considered to be the third nodal line to the left or right from the central antinodal line.)
Which of the following statements are true statements about nodal and antinodal points in light interference patterns? Antinodes result from constructive interference. Nodes result from destructive interference. The nodal points on an interference pattern are positioned along lines; these lines are called nodal lines. The central line on the interference pattern is a nodal line. Points on nodal lines would be represented by bright spots if projected onto a screen. The path difference for points on the central antinodal line would be 0. The path difference for points on the first antinodal line would be 1 cm. (This question presumes that the interference pattern is a water interference pattern.) If the path difference for points on the first antinodal line is 5 cm, then the path difference for points on the second antinodal line would be 7 cm. (This question presumes that the interference pattern is a water interference pattern.) If the path difference for points on the first antinodal line is 5 cm, then the path difference for points on the third antinodal line would be 15 cm. (This question presumes that the interference pattern is a water interference pattern.) If the path difference for points on the first antinodal line is 6 cm, then the path difference for points on the second nodal line would be 9 cm. (NOTE: the second nodal line is considered to be the second nodal line to the left or right from the central antinodal line.) (This question presumes that the interference pattern is a water interference pattern.) If the path difference for points on the first nodal line is 4 cm, then the path difference for points on the third nodal line would be 12 cm. (NOTE: the third nodal line is considered to be the third nodal line to the left or right from the central antinodal line.)
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Which of the following statements are true statements about nodal and antinodal points in light interference patterns?
- Antinodes result from constructive interference.
- Nodes result from destructive interference.
- The nodal points on an interference pattern are positioned along lines; these lines are called nodal lines.
- The central line on the interference pattern is a nodal line.
- Points on nodal lines would be represented by bright spots if projected onto a screen.
- The path difference for points on the central antinodal line would be 0.
- The path difference for points on the first antinodal line would be 1 cm.
- (This question presumes that the interference pattern is a water interference pattern.) If the path difference for points on the first antinodal line is 5 cm, then the path difference for points on the second antinodal line would be 7 cm.
- (This question presumes that the interference pattern is a water interference pattern.) If the path difference for points on the first antinodal line is 5 cm, then the path difference for points on the third antinodal line would be 15 cm.
- (This question presumes that the interference pattern is a water interference pattern.) If the path difference for points on the first antinodal line is 6 cm, then the path difference for points on the second nodal line would be 9 cm. (NOTE: the second nodal line is considered to be the second nodal line to the left or right from the central antinodal line.)
- (This question presumes that the interference pattern is a water interference pattern.) If the path difference for points on the first nodal line is 4 cm, then the path difference for points on the third nodal line would be 12 cm. (NOTE: the third nodal line is considered to be the third nodal line to the left or right from the central antinodal line.)
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