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A Weight Is Attached to a Spring Suspended Vertically from a Ceiling.When

Question 66

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A weight is attached to a spring suspended vertically from a ceiling.When a driving force is applied to the system, the weight moves vertically from its equilibrium position, and this motion is modeled by ​ A weight is attached to a spring suspended vertically from a ceiling.When a driving force is applied to the system, the weight moves vertically from its equilibrium position, and this motion is modeled by ​ ​ Where y is the distance from equilibrium (in feet) and t is the time (in seconds) . ​ Use the identity where , to write the model in the form . ​ A) B) ​ C) D) E)
Where y is the distance from equilibrium (in feet) and t is the time (in seconds) .

Use the identity A weight is attached to a spring suspended vertically from a ceiling.When a driving force is applied to the system, the weight moves vertically from its equilibrium position, and this motion is modeled by ​ ​ Where y is the distance from equilibrium (in feet) and t is the time (in seconds) . ​ Use the identity where , to write the model in the form . ​ A) B) ​ C) D) E) where A weight is attached to a spring suspended vertically from a ceiling.When a driving force is applied to the system, the weight moves vertically from its equilibrium position, and this motion is modeled by ​ ​ Where y is the distance from equilibrium (in feet) and t is the time (in seconds) . ​ Use the identity where , to write the model in the form . ​ A) B) ​ C) D) E) , to write the model in the form A weight is attached to a spring suspended vertically from a ceiling.When a driving force is applied to the system, the weight moves vertically from its equilibrium position, and this motion is modeled by ​ ​ Where y is the distance from equilibrium (in feet) and t is the time (in seconds) . ​ Use the identity where , to write the model in the form . ​ A) B) ​ C) D) E) .


A) A weight is attached to a spring suspended vertically from a ceiling.When a driving force is applied to the system, the weight moves vertically from its equilibrium position, and this motion is modeled by ​ ​ Where y is the distance from equilibrium (in feet) and t is the time (in seconds) . ​ Use the identity where , to write the model in the form . ​ A) B) ​ C) D) E)
B) A weight is attached to a spring suspended vertically from a ceiling.When a driving force is applied to the system, the weight moves vertically from its equilibrium position, and this motion is modeled by ​ ​ Where y is the distance from equilibrium (in feet) and t is the time (in seconds) . ​ Use the identity where , to write the model in the form . ​ A) B) ​ C) D) E)
C) A weight is attached to a spring suspended vertically from a ceiling.When a driving force is applied to the system, the weight moves vertically from its equilibrium position, and this motion is modeled by ​ ​ Where y is the distance from equilibrium (in feet) and t is the time (in seconds) . ​ Use the identity where , to write the model in the form . ​ A) B) ​ C) D) E)
D) A weight is attached to a spring suspended vertically from a ceiling.When a driving force is applied to the system, the weight moves vertically from its equilibrium position, and this motion is modeled by ​ ​ Where y is the distance from equilibrium (in feet) and t is the time (in seconds) . ​ Use the identity where , to write the model in the form . ​ A) B) ​ C) D) E)
E) A weight is attached to a spring suspended vertically from a ceiling.When a driving force is applied to the system, the weight moves vertically from its equilibrium position, and this motion is modeled by ​ ​ Where y is the distance from equilibrium (in feet) and t is the time (in seconds) . ​ Use the identity where , to write the model in the form . ​ A) B) ​ C) D) E)

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