If the ratio of amplitude of two waves is 4 : 3. Then the ratio of maximum and minimum intensity will be

Q: If the ratio of amplitude of two waves is $4 : 3$. Then the ratio of maximum and minimum intensity will be

c (c) $\frac{{{I_{\max }}}}{{{I_{\min }}}} = {\left( {\frac{{\frac{{{a_1}}}{{{a_2}}} + 1}}{{\frac{{{a_1}}}{{{a_2}}} - 1}}} \right)^2} = {\left( {\frac{{\frac{4}{3} + 1}}{{\frac{4}{3} - 1}}} \right)^2} = \frac{{49}}{1}$

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

If the ratio of amplitude of two waves is $4 : 3$. Then the ratio of maximum and minimum intensity will be

A$16:18$
B$18:16$
C$49:1$
D$1:49$

Medium

STD 11 Science
NEET
STD 11 - 14. waves and sound
Physics

Download our app
and get started for free

Experience the future of education. Simply download our apps or reach out to us for more information. Let's shape the future of learning together!No signup needed.*

Download App

Similar Questions

1
A man sets his watch by a whistle that is $2\, km$ away. How much will his watch be in error. (speed of sound in air $330\, m/sec$)
View Solution
2
A horizontal stretched string, fixed at two ends, is vibrating in its fifth harmonic according to the equation, $y(x$, $t )=(0.01 \ m ) \sin \left[\left(62.8 \ m ^{-1}\right) x \right] \cos \left[\left(628 s ^{-1}\right) t \right]$. Assuming $\pi=3.14$, the correct statement$(s)$ is (are) :

$(A)$ The number of nodes is $5$ .

$(B)$ The length of the string is $0.25 \ m$.

$(C)$ The maximum displacement of the midpoint of the string its equilibrium position is $0.01 \ m$.

$(D)$ The fundamental frequency is $100 \ Hz$.
View Solution
3
When two sound waves travel in the same direction in a medium, the displacements of a particle located at $'x'$ at time $'t'$ is given by

${y_1} = 0.05\,\cos \,\left( {0.50\,\pi x - 100\,\pi t} \right)$

${y_2} = 0.05\,\cos \,\left( {0.46\,\pi x - 92\,\pi t} \right)$

then velocity is..... $m/s$
View Solution
4
A car sounding a horn of frequency $ 1000 Hz$ passes an observer. The ratio of frequencies of the horn noted by the observer before and after passing of the car is $11 : 9$. If the speed of sound is v, the speed of the car is
View Solution
5
A clamped string is oscillating in $n^{th}$ harmonic, then
View Solution
6
The ratio of intensities between two coherent soud sources is $4 : 1$. The differenmce of loudness in $dB$ between maximum and minimum intensities when they interfere in space is:
View Solution
7
Two loudspeakers $L_1$ and $L_2$ driven by a common oscillator and amplifier, are arranged as shown. The frequency of the oscillator is gradually increased from zero and the detector at $D$ records a series of maxima and minima. If the speed of sound is $330\,ms^{-1}$ then the frequency at which the first maximum is observed is .... $Hz$
View Solution
8
Three similar wires of frequency $n_1, n_2$ and $n_3$ are joined to make one wire. Its frequency will be
View Solution
9
A string is producing transverse vibration whose equation is $y = 0.021\;\sin (x + 30t)$, Where $x$ and $y$ are in meters and $t$ is in seconds. If the linear density of the string is $1.3 \times {10^{ - 4}}\,kg/m,$ then the tension in the string in $N$ will be
View Solution
10
A travelling harmonic wave is represented by the equation $y(x, t) = 10^{-3}\,sin\,(50t + 2x)$, where $x$ and $y$ are in meter and $t$ is in seconds. Which of the following is a correct statement about the wave?
View Solution

Download our appand get started for free

Similar Questions

Download our app
and get started for free