YDSE Problems III

Q. In YDSE experiment if slit separation is 0.4 mm and wavelength of light used is 400 nm, then number of maxima observed [for $\theta ={37}^{\circ }$] between C and P are

1. 598
2. 749
3. 224
4. 500

Q. In YDSE experiment if slit separation is 0.4 mm and wavelength of light used is 400 nm, then number of maxima observed [for $\theta ={37}^{\circ }$] between C and P are

1. 598
2. 749
3. 224
4. 500

Q. Two sources $S_{1}and{S}_2$ emitting light of wavelength 600 nm are placed a distance $1.0\times {10}^{-2}$ cm apart. A detector can be moved on the line $S_{1}P$ which is perpendicular to $S_1{S}_2.$ Locate the position of the farthest minimum detected.

1. $S_{1}P$=0 m
2. $S_{1}P$=Infinite
3. $S_{1}P$= 1.7 m
4. $S_{1}P$= 6 m

Q. Two sources $S_{1}and{S}_2$ emitting light of wavelength 600 nm are placed a distance $1.0\times {10}^{-2}$ cm apart. A detector can be moved on the line $S_{1}P$ which is perpendicular to $S_1{S}_2.$ Locate the position of the farthest minimum detected.

1. $S_{1}P$=0 m
2. $S_{1}P$=Infinite
3. $S_{1}P$= 1.7 m
4. $S_{1}P$= 6 m

Q. In YDSE experiment if slit separation is 0.4 mm and wavelength of light used is 400 nm, then number of maxima observed [for $\theta ={37}^{\circ }$] between C and P are

1. 598
2. 749
3. 224
4. 500

Q. Two sources $S_{1}and{S}_2$ emitting light of wavelength 600 nm are placed a distance $1.0\times {10}^{-2}$ cm apart. A detector can be moved on the line $S_{1}P$ which is perpendicular to $S_1{S}_2.$ Locate the position of the farthest minimum detected.

1. $S_{1}P$=0 m
2. $S_{1}P$=Infinite
3. $S_{1}P$= 1.7 m
4. $S_{1}P$= 6 m