Sound travels through the air because of collisions between the molecules in the air. The temperature of the air affects the speed of the molecules, which in turn affects the speed of sound. The...


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Sound travels through the air because of collisions between the molecules in the air. The temperature of the air affects the speed of the molecules, which in turn affects the speed of sound. The velocity of sound in dry air can be approximated by the formula:<br>Velocity<br>= 331.3 + 0.61 x Tc<br>Where Tc is the temperature of the air in degrees Celsius and the velocity is in meters/second. Write a program that allows the user to input a starting and an ending temperature, then, the program asks the user the required increments of temperature to be calculated. The expected output is<br>as Figure Q4. Use for loop for the counter control repetition technique in your program and 2 decimal places on each area to be printed. The bold letter in this output is the input entered by the user.<br>Output Console<br>This is a Program to calculate the velocity of sound in dry air<br>Enter starting temperature: 0<br>Enter ending temperature: 4<br>Please enter the increment of temperature in Celsius: 0.85<br>At 0.00 degree Celsius the velocity of sound is 331.30 m/s<br>At 0.85 degree Celsius the velocity of sound is 331.82 m/s<br>At 1.70 degree Celsius the velocity of sound is 332.34 m/s<br>At 2.55 degree Celsius the velocity of sound is 332.86 m/s<br>At 3.40 degree Celsius the velocity of sound is 333.37 m/s<br>Enter Y - To Repeat - Others to Exit<br>Y<br>Enter starting temperature: 12<br>Enter ending temperature: 15<br>Please enter the increment of temperature in Celsius: 0.57<br>At 12.00 degree Celsius the velocity of sound is 338.62 m/s<br>At 12.57 degree Celsius the velocity of sound is 338.97 m/s<br>At 13.14 degree Celsius the velocity of sound is 339.32 m/s<br>At 13.71 degree Celsius the velocity of sound is 339.66 m/s<br>At 14.28 degree Celsius the velocity of sound is 340.01 m/s<br>At 14.85 degree Celsius the velocity of sound is 340.36 m/s<br>Enter Y - To Repeat - Others to Exit<br>N<br>

Extracted text: Sound travels through the air because of collisions between the molecules in the air. The temperature of the air affects the speed of the molecules, which in turn affects the speed of sound. The velocity of sound in dry air can be approximated by the formula: Velocity = 331.3 + 0.61 x Tc Where Tc is the temperature of the air in degrees Celsius and the velocity is in meters/second. Write a program that allows the user to input a starting and an ending temperature, then, the program asks the user the required increments of temperature to be calculated. The expected output is as Figure Q4. Use for loop for the counter control repetition technique in your program and 2 decimal places on each area to be printed. The bold letter in this output is the input entered by the user. Output Console This is a Program to calculate the velocity of sound in dry air Enter starting temperature: 0 Enter ending temperature: 4 Please enter the increment of temperature in Celsius: 0.85 At 0.00 degree Celsius the velocity of sound is 331.30 m/s At 0.85 degree Celsius the velocity of sound is 331.82 m/s At 1.70 degree Celsius the velocity of sound is 332.34 m/s At 2.55 degree Celsius the velocity of sound is 332.86 m/s At 3.40 degree Celsius the velocity of sound is 333.37 m/s Enter Y - To Repeat - Others to Exit Y Enter starting temperature: 12 Enter ending temperature: 15 Please enter the increment of temperature in Celsius: 0.57 At 12.00 degree Celsius the velocity of sound is 338.62 m/s At 12.57 degree Celsius the velocity of sound is 338.97 m/s At 13.14 degree Celsius the velocity of sound is 339.32 m/s At 13.71 degree Celsius the velocity of sound is 339.66 m/s At 14.28 degree Celsius the velocity of sound is 340.01 m/s At 14.85 degree Celsius the velocity of sound is 340.36 m/s Enter Y - To Repeat - Others to Exit N
Jun 09, 2022
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