The figure depicts the displacement of an oscillator x[m], as a function of time t[s] 0 -1 -2 -3 0 0.5 1 1.5 Mass of the oscillator is 1.1 kg. What is the oscillator's amplitude (with more than 2 significant digits)? A = 30*10^-1 m 2 Your last answer was interpreted as follows: 30-10-¹ What is the oscillator's angular velocity (with more than 2 significant digits)? w = 9.4*10^0 rad 2.5 3 3.5 4 Your last answer was interpreted as follows: 9.4. 10⁰ Write the equation for oscillator's position in the following format: x = Asin (wt + 6)? Insert the answer as follows: x = (A)*sin((omega where (A), (omega).(phi) are replaced with numerical values of amplitude, angular velocity and smallest positive phase angle rounde decimal after the decimal separator.
The figure depicts the displacement of an oscillator x[m], as a function of time t[s] 0 -1 -2 -3 0 0.5 1 1.5 Mass of the oscillator is 1.1 kg. What is the oscillator's amplitude (with more than 2 significant digits)? A = 30*10^-1 m 2 Your last answer was interpreted as follows: 30-10-¹ What is the oscillator's angular velocity (with more than 2 significant digits)? w = 9.4*10^0 rad 2.5 3 3.5 4 Your last answer was interpreted as follows: 9.4. 10⁰ Write the equation for oscillator's position in the following format: x = Asin (wt + 6)? Insert the answer as follows: x = (A)*sin((omega where (A), (omega).(phi) are replaced with numerical values of amplitude, angular velocity and smallest positive phase angle rounde decimal after the decimal separator.
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![The figure depicts the displacement of an oscillator x[m], as a function of time t[s]
2
1
-1
-2
-3
0
0.5
1
1.5
Mass of the oscillator is 1.1 kg.
What is the oscillator's amplitude (with more than 2 significant digits)?
A = 30*10^-1 m
2
Your last answer was interpreted as follows: 30-10-¹
What is the oscillator's angular velocity (with more than 2 significant digits)?
w = 9.4*10^0 rad
2.5
3
3.5
4
Your last answer was interpreted as follows: 9.4. 10⁰
Write the equation for oscillator's position in the following format: x = A sin (wt + 6)? Insert the answer as follows: x = (A)*sin((omega)*t + (phi)),
where (A), (omega). (phi) are replaced with numerical values of amplitude, angular velocity and smallest positive phase angle rounded to one
decimal after the decimal separator.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fe23ae763-28c2-4106-8a99-c21e032becaf%2F127cbbb0-2199-40fa-bf91-dbdc6ee1cd59%2Fa1mkdj7_processed.png&w=3840&q=75)
Transcribed Image Text:The figure depicts the displacement of an oscillator x[m], as a function of time t[s]
2
1
-1
-2
-3
0
0.5
1
1.5
Mass of the oscillator is 1.1 kg.
What is the oscillator's amplitude (with more than 2 significant digits)?
A = 30*10^-1 m
2
Your last answer was interpreted as follows: 30-10-¹
What is the oscillator's angular velocity (with more than 2 significant digits)?
w = 9.4*10^0 rad
2.5
3
3.5
4
Your last answer was interpreted as follows: 9.4. 10⁰
Write the equation for oscillator's position in the following format: x = A sin (wt + 6)? Insert the answer as follows: x = (A)*sin((omega)*t + (phi)),
where (A), (omega). (phi) are replaced with numerical values of amplitude, angular velocity and smallest positive phase angle rounded to one
decimal after the decimal separator.
Transcribed Image Text:Write the equation for oscillator's position in the following format: x = Asin (wt + p)? Insert the answer as follows: x = (A)*sin((omega)*t + (phi)),
where (A), (omega). (phi) are replaced with numerical values of amplitude, angular velocity and smallest positive phase angle rounded to one
decimal after the decimal separator.
x=(3)*sin((9.4)*t + ())
Your last answer was interpreted as follows: x=(3) * sin((9.4)*t + ())
This answer is invalid.The expression () is forbidden.
Kinetic energy at time 1.625 (with more than 2 significant digits)?
Ek =
Oscillator's total energy (with more than 2 significant digits)?
Etot =
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