In the experiment to determine the speed of sound using a resonance column,
IIT 2007,IIT 2006, Advanced
Download our app for free and get started
Download our appand 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.*
Similar Questions
- 1View SolutionWhich of the diagrams shown in figure represents variation of total mechanical energy of a pendulum oscillating in water as function of time?
- 2Two pulses in a stretched string whose centres are initially $8 cm$ apart are moving towards each other as shown in the figure. The speed of each pulse is $2 cm/s$. After $2$ seconds, the total energy of the pulses will beView Solution
- 3Fig. below shows the wave $y = A\sin (\omega t - kx)$ at any instant travelling in the $+ve$ $x-$direction. What is the slope of the curve at $B$View Solution
- 4When a tuning fork of frequency $341$ is sounded with another tuning fork, six beats per second are heard. When the second tuning fork is loaded with wax and sounded with the first tuning fork, the number of beats is two per second. The natural frequency of the second tuning fork isView Solution
- 5Two wires are fixed in a sonometer. Their tensions are in the ratio $8 : 1$. The lengths are in the ratio $36:35.$ The diameters are in the ratio $4 : 1$. Densities of the materials are in the ratio $1 : 2$. If the lower frequency in the setting is $360 Hz.$ the beat frequency when the two wires are sounded together isView Solution
- 6The displacement at a point due to two waves are $y_1=4 \sin (500 \pi t)$ and $y_2=2 \sin (506 \pi t)$. The result due to their superposition will beView Solution
- 7How many times more intense is $90\,\, dB$ sound than $40\,\, dB$ sound?View Solution
- 8Two pulses travel in mutually opposite directions in a string with a speed of $2.5 cm/s$ as shown in the figure. Initially the pulses are $10cm$ apart. What will be the state of the string after two secondsView Solution
- 9If $v$ is the speed of sound in air then the shortest length of the closed pipe which resonates to a frequency $n$View Solution
- 10A cylindrical tube $(L = 120\,cm.)$ is resonant with a tuning fork of frequency $330\,Hz$. If it is filling by water then to get resonance minimum length of water column is ..... $cm$ $(V_{air} = 330\,m/s)$View Solution