A standing wave having 3 nodes and 2 antinodes is formed between two atoms having a distance 1.21Å between them. The wavelength of the standing wave is

In YDSE, bichromatic light of wavelengths 400 nm and 560 nm are used. The distance between the slits is 0.1 mm and the distance between the plane of the slits and the screen is 1m. The minimum distance between two successive regions of complete darkness is

In one stationary wave if distance between consecutive node and antinode is 5 cm then find distance between two consecutive antinodes.

Along the direction of propagation of wave, distance between two particles, having same phaes is called wavelength of wave.

In a standing wave formed by two atoms separated by 1.21Å, there are 3 nodes and 2 antinodes. Find its wavelength.

Assume that the de-Brogile wave associated with an electron can form a standing wave between the atoms arranged in a one dimensional array with nodes at wach of the atomic sites. If is found that one such standing wave is formed if the distance 'd' between the atoms of the array is 2Å . A similar wave in again formed if 'd' is increased to 2.5 A but not for any intermediate value of d. Find the energy of the electrons in electron volts and the least value of d for which the standing wave of the standing wave of the type described above can form.

Give distance between consecutive nodes and antinodes in terms of wavelength.

Two flagstaffs stand on a horizontal plane. A and B are two points on the line joining their feet and between them. The angle of elevation of the tops of the flagstaffs as seen from A are 30^(@)and 60^(@) and as seen from B are 60^(@) and 45^(@). If AB is 30 m, the distance between the flagstaffs in metre is

Electron starting from rest is acclerated between two point having p.d. of 20 V and 40 V. de-Broglie wavelength of electron……