Calculate the speed of sound in air, if the temperature were 330 K, which is 10%...

(a) Compute the derivative of the speed of sound in air with respect to the absolute...

(a) Compute the derivative of the speed of sound in air with respect to the absolute temperature, and show that the differentials dv and dT obey dv/v = 1/2 dT/T. (b) Use this result to estimate the percentage change in the speed of sound when the temperature changes from 0�C to 24.8�C. (c) If the speed of sound is 332 m/s at 0�C, estimate its value at 24.8�C using the differential approximation. (d) How does this approximation compare with the...

1. Which of the following actions will increase the speed of sound in air? (a) decreasing...

1. Which of the following actions will increase the speed of sound in air? (a) decreasing the air temperature (b) increasing the frequency of the sound (c) increasing the air temperature (d) increasing the amplitude of the sound wave (e) reducing the pressure of the air. Why? 2. Suppose you’re on a hot air balloon ride, carrying a buzzer that emits a sound of frequency f. If you accidentally drop the buzzer over the side while the balloon is rising...

The speed of sound is proportional to the square root of the absolute temperature, defined by:...

The speed of sound is proportional to the square root of the absolute temperature, defined by: Tabs = 273 + Tc where Tc is the temperature in degrees Celsius. A trumpet is tuned to B♭ (466 Hz), when it is initially cold at 20◦C. After playing for a while, it warms up to 30◦C. What is the new frequency of the trumpet (i.e., how far out of tune is it)? Assume the speed of sound at 20◦C to be 343...

Can you calculate the speed of sound knowing the temperature of the room and explain in...

Can you calculate the speed of sound knowing the temperature of the room and explain in detail

1. explain why you will find more than one tube length (column of air) at which...

1. explain why you will find more than one tube length (column of air) at which a tuning fork causes resonance. 2. Assume the temperature is 294 k. calculate the theoretical speed of sound.

On a sunny morning the atmospheric pressure is 10^5 N/m^2 and the temperature is 279 K...

On a sunny morning the atmospheric pressure is 10^5 N/m^2 and the temperature is 279 K and you are at a family reunion. A balloon has been filled with 1000m^3 of preheated air at atmospheric pressure and a temperature of 300 K. The mass of the empty balloon and its load is 240 Kg. Under these conditions, the balloon rises above its burden, but the airship remains grounded. To begin the ascent, the air within the balloon is brought to...

A stone is dropped from the top of a cliff. The splash it makes when striking...

A stone is dropped from the top of a cliff. The splash it makes when striking the water below is heard 3.2 s later. How high is the cliff? 2. The pressure variation is a sound wave is given by Δ P = 0.0035 sin (0.38 π x – 1350 π t) Determine a. the wavelength b. the frequency c. the speed and d. the displacement amplitude of the wave. Assume the density of the medium to be 2.2 x...

GROUP REPORT ANALYSIS: Only one report shall be handed in for each group. The lab number...

GROUP REPORT ANALYSIS: Only one report shall be handed in for each group. The lab number and name shall be on the report along with your instructor’s name and the lab section. Include every group member’s name on the report. Data A recording of the temperature be sure to (include units) shall be noted from Step 3, along with your calculation for the speed of sound in air. Provide a succinct description of what you did in the lab for...

In the Updated Climate Change PPT/video numbers were cited for the worldwide emissions of carbon dioxide...

In the Updated Climate Change PPT/video numbers were cited for the worldwide emissions of carbon dioxide in Gigatons (=1015g) and the annual increase in the atmospheric concentration of the gas in ppm. Data was also given on the percentage of emitted gas that remains in the atmosphere and is not absorbed by plants or the ocean. If annual emissions are 36 Gigatons and the annual increase in concentration is 2.36 ppm, what percent of the carbon dioxide has remained in...

Consider a classroom filled with air. Let’s approximate air as an ideal gas of N2-molecules (nitrogen)...

Consider a classroom filled with air. Let’s approximate air as an ideal gas of N2-molecules (nitrogen) at normal conditions (P = 1 Bar and T = 300 Kelvin). Suppose the room has dimensions of 10 m by 10 m by 10 m (a pretty large auditorium). Let us also assume that N2 molecule has 5 degrees of freedom (3 translational and 2 rotational). In this problem you will need to provide numeric answers up to the first significant digit. 2.1...