Two trains on separate tracks move toward one another. Train 1 has a speed of 110...
Two trains on separate tracks move toward one another. Train 1 has a speed of 110 km/h, train 2 a speed of 85.0 km/h. Train 2 blows its horn, emitting a frequency of 500 Hz. What is the frequency heard by the engineer on train 1? (Assume the speed of sound is 345 m/s.)
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Two trains on separate tracks move toward one another. Train 1
has a speed of 110...
Two trains on separate tracks move toward each other. Train 1 has a speed of 141...
Two trains on separate tracks move toward each other. Train 1 has a speed of 141 km/h; train 2, a speed of 85.0 km/h. Train 2 blows its horn, emitting a frequency of 500 Hz. What is the frequency heard by the engineer on train 1? Hz
Two trains on separate tracks move toward each other. Train 1 has a speed of 109...
Two trains on separate tracks move toward each other. Train 1 has a speed of 109 km/h; train 2, a speed of 96.0 km/h. Train 2 blows its horn, emitting a frequency of 500 Hz. What is the frequency heard by the engineer on train 1? Hz
Two trains on separate tracks move toward each other. Train 1 has a speed of 113...
Two trains on separate tracks move toward each other. Train 1 has a speed of 113 km/h; train 2, a speed of 59.0 km/h. Train 2 blows its horn, emitting a frequency of 500 Hz. What is the frequency heard by the engineer on train 1? Hz A person wears a hearing aid that uniformly increases the intensity level of all audible frequencies of sound by 30.7 dB. The hearing aid picks up sound having a frequency of 250 Hz...
.. + -/1 points SerCP10 14.P.025.WI. Two trains on separate tracks move toward each other. Train...
.. + -/1 points SerCP10 14.P.025.WI. Two trains on separate tracks move toward each other. Train 1 has a speed of 117 km/h; train 2, a speed of 73.0 km/h. Train 2 blows its horn, emitting a frequency of 500 Hz. What is the frequency heard by the engineer on train 1?
Two trains approach each other on separate but adjacent tracks. Train 1 is traveling at a...
Two trains approach each other on separate but adjacent tracks. Train 1 is traveling at a speed of 35.9 m/s and train 2 at a speed of 27.6 m/s. If the engineer of train 1 sounds his horn which has a frequency of 520 Hz, determine the frequency of the sound heard by the engineer of train 2. (Use 343 m/s as the speed of sound. Enter your answer to the nearest Hz.)
A train: A enters a train station with constant speed of .00 m/s while another train...
A train: A enters a train station with constant speed of .00 m/s while another train B leaves the train station with constant speed of 4.00 m/s. At a moment they are both at the same distance of 1 km from the train station they whistle two identical sounds of 400. Hz with acoustic power of 70.0 W each. A passenger standing on the station platform. No wind is blowing. (a) What is the frequency of the sound from A...
Problem 1. You're walking through the woods and come upon some railroad tracks. You walk southward...
Problem 1. You're walking through the woods and come upon some railroad tracks. You walk southward beside the tracks at 1.00 m/s as you hear a train horn north of you emitting a sound at 650 Hz. Knowing from your previous experience with trains, the sound should be a 500 Hz tone. Take the speed of sound to be 340 m/s. a) How fast is the train moving relative to you? b) Further knowledge of a train whistle says that...
Two eagles fly directly toward one another, the first at 15.0 m/s and the second at 28.0 m/s....
Two eagles fly directly toward one another, the first at 15.0 m/s and the second at 28.0 m/s. Both screech, the first one emitting a frequency of 2700 Hz and the second one emitting a frequency of 3800 Hz. What frequencies (in Hz) do they receive if the speed of sound is 330 m/s? first eagle Hzsecond eagle Hz
Two cars traveling with the same speed move directly away from one another. One car sounds...
Two cars traveling with the same speed move directly away from one another. One car sounds a horn whose frequency is 401 Hz and a person in the other car hears a frequency of 380 Hz. What is the speed of the cars?
show all steps please If the source of a sound and an observer are moving relative...
show all steps please
If the source of a sound and an observer are moving relative to one another in a way other than along the same straight line, we must invoke the gerneral Doppler equation. The genal Doppler equation is given by V - Vs cos(es) where 00 and 0s are defined in Γ ure a Apply his equatiun tu he scena, o r' which a reight train 15 aveling dt a oon tant speed o 23.0 " s...
Two trains on separate tracks move toward each other. Train 1 has a speed of 109 km/h; train 2, a speed of 96.0 km/h. Train 2 blows its horn, emitting a frequency of 500 Hz. What is the frequency heard by the engineer on train 1? Hz
Two trains on separate tracks move toward each other. Train 1 has a speed of 113 km/h; train 2, a speed of 59.0 km/h. Train 2 blows its horn, emitting a frequency of 500 Hz. What is the frequency heard by the engineer on train 1? Hz A person wears a hearing aid that uniformly increases the intensity level of all audible frequencies of sound by 30.7 dB. The hearing aid picks up sound having a frequency of 250 Hz...
.. + -/1 points SerCP10 14.P.025.WI. Two trains on separate tracks move toward each other. Train 1 has a speed of 117 km/h; train 2, a speed of 73.0 km/h. Train 2 blows its horn, emitting a frequency of 500 Hz. What is the frequency heard by the engineer on train 1?
A train: A enters a train station with constant speed of .00 m/s while another train B leaves the train station with constant speed of 4.00 m/s. At a moment they are both at the same distance of 1 km from the train station they whistle two identical sounds of 400. Hz with acoustic power of 70.0 W each. A passenger standing on the station platform. No wind is blowing. (a) What is the frequency of the sound from A...
Problem 1. You're walking through the woods and come upon some railroad tracks. You walk southward beside the tracks at 1.00 m/s as you hear a train horn north of you emitting a sound at 650 Hz. Knowing from your previous experience with trains, the sound should be a 500 Hz tone. Take the speed of sound to be 340 m/s. a) How fast is the train moving relative to you? b) Further knowledge of a train whistle says that...
show all steps please
If the source of a sound and an observer are moving relative to one another in a way other than along the same straight line, we must invoke the gerneral Doppler equation. The genal Doppler equation is given by V - Vs cos(es) where 00 and 0s are defined in Γ ure a Apply his equatiun tu he scena, o r' which a reight train 15 aveling dt a oon tant speed o 23.0 " s...
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