Mathematics, 28.07.2019 14:50, emilymartinez75
If the angle θ in the two-source interference equations is small, then using small-angle approximations yields the equation ym=r(m+1/2)λd, where r is the distance from the sources to the points where they are being detected (in young's experiment the screen, in this example the road), and ym is the distance from the central maximum to the minimum of order m. use this equation to find the distance from the central maximum to the minimum in the previous part
Answers: 1
Mathematics, 24.09.2019 14:10, liana8
Answers: 1
Physics, 28.09.2019 22:20, GFJNIN9858
Answers: 2
Physics, 01.11.2019 01:31, gggggg47
Answers: 3
If the angle θ in the two-source interference equations is small, then using small-angle approximati...
English, 14.07.2019 23:00
Biology, 14.07.2019 23:00
Mathematics, 14.07.2019 23:00