Myofibril shows dark and light bands in

A lens of focal length f gives diffraction pattern of Fraunhoffer type of a slit having width a. If wavelength of light is lambda , the distance of first dark band and next bright band from axis is given by

Show that both dark and Bright fringes have equal width.

Assuming expression for path difference between two light waves for bright bands and dark bands. Obtain an expression for the band width.

Which of the following statements is/are correct/ incorrect? (I) A-bands of the muscle is dark and contain myosin. (II) I-bands are the light bands and contain actin. (II) during muscle contraction, the A-band contracts. (IV) The part between the two H-lines is called as sarcomere. (V) The central part of thin filament, not overlapped by thick filament is called H-zone.

In a biprism experiment , the distance between the slit and the focal plane of the eyepiece is 1.2 m and the wavelength of light used is 5000 overset (@)(A) . When a convex lens is interposed (between the biprism and eyepiece) the images of the slits in the two positions are 5 mm and 1.8 mm apart . The distance between the centre of the pattern and twelfth dark band is

What is a band gap?

Do reaction of photosynthesis called, as 'Dark Reaction' need light? Explain.

In a biprism experiment, the slit is illuminated by red light of wavelength 6400 overset (@)(A) and the crosswire in the eyepiece is adjusted to be at the centre of the 3rd bright band. By using blue light it is found that the 4th bright band is at the centre of the cross-wire. Find the wavelength of blue light.

Assertion: A red objecty appears dark in yellow light. Reason : Red colour is scattered less.

Calculate the distance of the fifth dark band from the central bright band in a biprism experiment .(Given lambda = 6000 overset (@)(A) , distance between the virtual images of the slit = 1.2 mm and distance between source and screen = 100 cm .)