You attach a speaker to an air track cart and then attach the cart to one end of the air track by means of a spring and start the system oscillating by stretching the spring 0.697 m from its equilibrium position and then releasing it. The force constant for the spring is k = 44.8 N/m, the total mass of the speaker and air track cart are 4.00 kg, and the speaker emits sound with a frequency of 535 Hz. If your lab partner Pat stands at the end of the air track, determine the highest and lowest frequencies she hears. The speed of sound in air is 343 m/s. (Enter your answers to at least the nearest Hz.) highest frequency Can you write an expression for the frequency heard by a stationary observer when the source is moving towards and/or away from the observer? See if you can use ..conservation.of.mechanical energy to determine the maximum speed of the speaker-cart combination. Hz lowest Enter a number. an expression for the frequency heard by a stationary observer when the source is moving towards and/or away from the observer? See if you can use conservation of mechanical energy to determine the maximum speed of the speaker-cart combination. Hz frequency
You attach a speaker to an air track cart and then attach the cart to one end of the air track by means of a spring and start the system oscillating by stretching the spring 0.697 m from its equilibrium position and then releasing it. The force constant for the spring is k = 44.8 N/m, the total mass of the speaker and air track cart are 4.00 kg, and the speaker emits sound with a frequency of 535 Hz. If your lab partner Pat stands at the end of the air track, determine the highest and lowest frequencies she hears. The speed of sound in air is 343 m/s. (Enter your answers to at least the nearest Hz.) highest frequency Can you write an expression for the frequency heard by a stationary observer when the source is moving towards and/or away from the observer? See if you can use ..conservation.of.mechanical energy to determine the maximum speed of the speaker-cart combination. Hz lowest Enter a number. an expression for the frequency heard by a stationary observer when the source is moving towards and/or away from the observer? See if you can use conservation of mechanical energy to determine the maximum speed of the speaker-cart combination. Hz frequency
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Transcribed Image Text:You attach a speaker to an air track cart and then attach the cart to one end of the air track by means of a spring and start the system oscillating by stretching the spring 0.697 m from
its equilibrium position and then releasing it. The force constant for the spring is k = 44.8 N/m, the total mass of the speaker and air track cart are 4.00 kg, and the speaker emits sound
with a frequency of 535 Hz. If your lab partner Pat stands at the end of the air track, determine the highest and lowest frequencies she hears. The speed of sound in air is 343 m/s.
(Enter your answers to at least the nearest Hz.)
highest
frequency
Can you write an expression for the frequency heard by a stationary observer when the source is moving towards and/or away from the observer? See if you can use
.conservation.of.mechanical energy to determine the maximum speed of the speaker-cart combination. Hz
lowest
Enter a number. an expression for the frequency heard by a stationary observer when the source is moving towards and/or away from the observer? See if you can use
conservation of mechanical energy to determine the maximum speed of the speaker-cart combination. Hz
frequency
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