1.The New England Merchants Bank Building in Boston is 152 m high. On windy days it sways with a frequency of 0.15 Hz, and the acceleration of the top of the building can reach 1.8 % of the free-fall acceleration, enough to cause discomfort for occupants.What is the total distance, side to side, that the top of the building moves during such an oscillation?
2.A 50-cm-long spring is suspended from the ceiling. A 270 gmass is connected to the end and held at rest with the spring unstretched. The mass is released and falls, stretching the spring by 26 cm before coming to rest at its lowest point. It then continues to oscillate vertically.
a.What is the spring constant?
b.What is the amplitude of the oscillation?
1.The New England Merchants Bank Building in Boston is 152 m high. On windy days it...
The New England Merchants Bank Building in Boston is 152 m high. On windy days it sways with a frequency of 0.12 Hz , and the acceleration of the top of the building can reach 1.6 % of the free-fall acceleration, enough to cause discomfort for occupants.What is the total distance, side to side, that the top of the building moves during such an oscillation?
The New England Merchants Bank Building in Boston is 152 m high. On windy days it sways with a frequency of 0.15Hz , and the acceleration of the top of the building can reach 2.5% of the free-fall acceleration, enough to cause discomfort for occupants. What is the total distance, side to side, that the top of the building moves during such an oscillation? Answer is 2A=55 cm. How do we get to this answer?
The New England Merchants Bank Building in Boston is 152 m high. On windy days it sways with a frequency of 0.17 Hz , and the acceleration of the top of the building can reach 1.7 % of the free-fall acceleration, enough to cause discomfort for occupants. What is the total distance, side to side, that the top of the building moves during such an oscillation? (2A= ??? )
The New England Merchants Bank Building in Boston is 152 m high. On windy days it sways with a frequency of 0.14 Hz , and the acceleration of the top of the building can reach 1.9 % of the free-fall acceleration, enough to cause discomfort for occupants. What is the total distance, side to side, that the top of the building moves during such an oscillation? The answer I got was 39.9 cm, this was incorrect
Constants The New England Merchants Bank Building in Boston is 152 m high. On windy days it sways with a frequency of 0.12 Hz , and the acceleration of the top of the building can reach 2.1 % of the free fall acceleration, enough to cause discomfort for occupants. Part A What is the total distance, side to side, that the top of the building moves during such an oscillation? Express your answer with the appropriate units. HA 21- Value...
ReviewI Constants Part A The New England Merchants Bank Building in Boston is 152 m high. On windy days it sways with a frequency of 0.20 Hz, and the acceleration of the top of the building can reach 1.6 % of the free-fall acceleration, enough to cause discomfort for occupants. What is the total distance, side to side, that the top of the building moves during such an oscillation? Express your answer to two significant figures and include the appropriate...
ReviewI Constants Part A The New England Merchants Bank Building in Boston is 152 m high. On windy days it sways with a frequency of 0.20 Hz, and the acceleration of the top of the building can reach 1.6 % of the free-fall acceleration, enough to cause discomfort for occupants. What is the total distance, side to side, that the top of the building moves during such an oscillation? Express your answer to two significant figures and include the appropriate...
Problem 14.14 - Enhanced - with Feedback The New England Merchants Bank Building in Boston is 152 m high. On windy days it sways with a frequency of 0.17 Hz, and the acceleration of the top of the building can reach 1.7 % of the free-fall acceleration, enough to cause discomfort for occupants. Part A What is the total distance, side to side, that the top of the building moves during such an oscillation? Express your answer with the appropriate...
A 50-cm-long spring is suspended from the ceiling. A 250 g mass is connected to the end and held at rest with the spring unstretched. The mass is released and falls, stretching the spring by 18 cm before coming to rest at its lowest point. It then continues to oscillate vertically. a. What is the spring constant? b. What is the amplitude of the oscillation? c. What is the frequency of the oscillation?
A 50-cm-long spring is suspended from the ceiling. A 290 g mass is connected to the end and held at rest with the spring unstretched. The mass is released and falls, stretching the spring by 26 cm before coming to rest at its lowest point. It then continues to oscillate vertically. What is the spring constant? What is the amplitude of the oscillation?