1
MHT CET 2021 23th September Morning Shift
+1
-0

Two waves $$\mathrm{Y}_1=0.25 \sin 316 \mathrm{t}$$ and $$\mathrm{Y}_2=0.25 \sin 310 \mathrm{t}$$ are propagation same direction. The number of beats produced per second are

A
$$\frac{3}{\pi}$$
B
$$\frac{\pi}{3}$$
C
$$\frac{\pi}{2}$$
D
$$\frac{2}{\pi}$$
2
MHT CET 2021 23th September Morning Shift
+1
-0

Two waves are represented by the equation, $$\mathrm{y}_1=\mathrm{A} \sin (\omega \mathrm{t}+\mathrm{kx}+0.57) \mathrm{m}$$ and $$\mathrm{y}_2=\mathrm{A} \cos (\omega \mathrm{t}+\mathrm{kx}) \mathrm{m}$$, where $$\mathrm{x}$$ is in metre and $$\mathrm{t}$$ is in second. What is the phase difference between them?

A
B
C
D
3
MHT CET 2021 23th September Morning Shift
+1
-0

The fundamental frequency of an air column in pipe 'A' closed at one end coincides with second overtone of pipe 'B' open at both ends. The ratio of length of pipe 'A' to that of pipe 'B' is

A
3 : 8
B
3 : 4
C
1 : 6
D
2 : 3
4
MHT CET 2021 22th September Evening Shift
+1
-0

A tuning fork of frequency '$$n$$' is held near the open end of tube which is closed at the other end and the lengths are adjusted until resonance occurs. The first resonance occurs at length $$L_1$$ and immediate next resonance occurs at length $$L_2$$. The speed of sound in air is

A
$$n\left(L_2-L_1\right)$$
B
$$\frac{\mathrm{n}\left(\mathrm{L}_2-\mathrm{L}_1\right)}{2}$$
C
$$2 n\left(L_2-L_1\right)$$
D
$$\frac{\mathrm{n}\left(\mathrm{L}_2+\mathrm{L}_1\right)}{2}$$
EXAM MAP
Medical
NEET