Astronauts in space "weigh" themselves by oscillating on a spring. Suppose the position of an oscillating...
Astronauts in space "weigh" themselves by oscillating on a spring. Suppose the position of an oscillating 71 kg astronaut is given by x=(0.31m)sin((πrad/s)⋅t), where t is in s.
-What force does the spring exert on the astronaut at t = 1.0s. Note that the angle of the sine function is in radians.
-What force does the spring exert on the astronaut at t=1.5 s.
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Astronauts in space "weigh" themselves by oscillating on a
spring. Suppose the position of an oscillating...
Part A Astronauts in space cannot weigh themselves by standing on a bathroom scale. Instead, they...
Part A Astronauts in space cannot weigh themselves by standing on a bathroom scale. Instead, they determine their mass by oscillating on a large spring. Suppose an astronaut attaches one end of a large spring to her belt and the other end to a hook on the wall of the space capsule. A fellow astronaut then pulls her away from the wall and releases her. The spring's length as a function of time is shown in the figure (Figure 1)....
Review Part A Astronauts in space cannot weigh themselves by standing on a bathroom scale. Instead,...
Review Part A Astronauts in space cannot weigh themselves by standing on a bathroom scale. Instead, they determine their mass by oscillating on a large spring. Suppose an astronaut attaches one end of a large spring to her belt and the other end to a hook on the wall of the space capsule. A fellow astronaut then pulls her away from the wall and releases her. The spring's length as a function of time is shown in the figure (Figure...
Please answer all parts. Thanks. Astronauts in space cannot weigh themselves by standing on a bathroom...
Please answer all parts. Thanks.
Astronauts in space cannot weigh themselves by standing on a bathroom scale. Instead, they determine their mass using simple harmonic motion. This astronaut has collected the data displayed in the position vs. time graph below 0.0 02 04 0.6 4.0 Timel s) If we model his motion as a simple mass on a spring, and the spring constant is 1650 N/m, what is the body mass of the astronaut?
#1. ["Massing' Astronauts) Inside the International Space Station orbiting Earth, ordinary scales don't work for measuring...
#1. ["Massing' Astronauts) Inside the International Space Station orbiting Earth, ordinary scales don't work for measuring weight since the space station is in free fall. However, the masses of astronauts can be determined using an oscillatory device known as an inertia balance that relies on springs rather than gravity for its restoring force. A 22.5 kg chair attached to a spring takes 1.30 s to complete one cycle of oscillation. With an astronaut sitting in the oscillating chair with feet...
In order to study the long-term effects of weightlessness, astronauts in space must be weighed (or...
In order to study the long-term effects of weightlessness, astronauts in space must be weighed (or at least "massed"). One way in which this is done is to seat them in a chair of known mass attached to a spring of known force constant and measure the period of the oscillations of this system. The 35.4 kg chair alone oscillates with a period of 1.25 s , and the period with the astronaut sitting in the chair is 2.23 s...
In order to study the long-term effects of weightlessness, astronauts in space must be weighed (or...
In order to study the long-term effects of weightlessness, astronauts in space must be weighed (or at least "massed"). One way in which this is done is to seat them in a chair of known mass attached to a spring of known force constant and measure the period of the oscillations of this system. The 35.2 kg chair alone oscillates with a period of 1.50 s , and the period with the astronaut sitting in the chair is 2.22 s...
Please show work and use the numbers provided so that I can compare it to my...
Please show work and use the numbers provided so that I can
compare it to my own work and figure out how to do it on my own.
Thank you.
Problem 15.43 What is her mass if the spring constant is 310 N/m? Express your answer to two significant figures and include the appropriate units Astronauts in space cannot weigh themselves by standing on a bathroom scale. Instead, they determine their mass by oscillating on a large spring. Suppose an...
The position of a mass oscillating on a spring is given by the equation x(t) =...
The position of a mass oscillating on a spring is given by the equation x(t) = A * sin(f t) , where A and fare constants. What are the dimensions of fif the argument of the sinc function is in degrees?
The position of a 0.5 kg object that is oscillating on an ideal spring is given...
The position of a 0.5 kg object that is oscillating on an ideal spring is given by the equation x = (10cm)cos(10 t), where t is in seconds. At what position x is the kinetic energy one third of the potential energy at that position?
13.6 The equation for the position as a function of time for an oscillating spring is...
13.6 The equation for the position as a function of time for an oscillating spring is given by x 15 cm cos 47at a) What is the frequency? b) If the mass on the spring is 400 g, what is the spring constant of the spring? c) What is the position at t-0.023 82 d) What is the position at rad 1 0.08 s
Part A Astronauts in space cannot weigh themselves by standing on a bathroom scale. Instead, they determine their mass by oscillating on a large spring. Suppose an astronaut attaches one end of a large spring to her belt and the other end to a hook on the wall of the space capsule. A fellow astronaut then pulls her away from the wall and releases her. The spring's length as a function of time is shown in the figure (Figure 1)....
Review Part A Astronauts in space cannot weigh themselves by standing on a bathroom scale. Instead, they determine their mass by oscillating on a large spring. Suppose an astronaut attaches one end of a large spring to her belt and the other end to a hook on the wall of the space capsule. A fellow astronaut then pulls her away from the wall and releases her. The spring's length as a function of time is shown in the figure (Figure...
Please answer all parts. Thanks.
Astronauts in space cannot weigh themselves by standing on a bathroom scale. Instead, they determine their mass using simple harmonic motion. This astronaut has collected the data displayed in the position vs. time graph below 0.0 02 04 0.6 4.0 Timel s) If we model his motion as a simple mass on a spring, and the spring constant is 1650 N/m, what is the body mass of the astronaut?
#1. ["Massing' Astronauts) Inside the International Space Station orbiting Earth, ordinary scales don't work for measuring weight since the space station is in free fall. However, the masses of astronauts can be determined using an oscillatory device known as an inertia balance that relies on springs rather than gravity for its restoring force. A 22.5 kg chair attached to a spring takes 1.30 s to complete one cycle of oscillation. With an astronaut sitting in the oscillating chair with feet...
Please show work and use the numbers provided so that I can
compare it to my own work and figure out how to do it on my own.
Thank you.
Problem 15.43 What is her mass if the spring constant is 310 N/m? Express your answer to two significant figures and include the appropriate units Astronauts in space cannot weigh themselves by standing on a bathroom scale. Instead, they determine their mass by oscillating on a large spring. Suppose an...
13.6 The equation for the position as a function of time for an oscillating spring is given by x 15 cm cos 47at a) What is the frequency? b) If the mass on the spring is 400 g, what is the spring constant of the spring? c) What is the position at t-0.023 82 d) What is the position at rad 1 0.08 s
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