In a satellite model for a science project, given the masses of the three satellites mA=1.4 kg, mp=2.8 kg, and mc =4.6 kgthat are connected with massless rods, joined at the point the rotation axis is passing through. The satellites have the distancesRA=1 m, RBrad= 0.9 m, and Rc =1.5 m, from the rotation axis. The system rotates with an angular speed w = 2.3mARARBRcMB1. Calculate the moment of inertia /; for this model: /; =kg m²2. Calculate the magnitude of the angular momentum L; =m2kg3. Calculate the rotational kinetic energy K;=4. As the system is rotating counter-clockwise the direction of the vector isThe mass mc was not properly glued and breaks away during the rotation.1. Calculate the moment of inertia If for this model now. If=kg m22. Using the conservation of angular momentum, calculate the angular speed wf after the mass mc has broken away duringradthe rotation. Wf=3. Calculate the rotational kinetic energy in this situation: K=

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In a satellite model for a science project, given the masses of the three satellites ma= 1.4 kg, mp=2.8 kg, and mc = 4.6 kg that are connected with massless rods, joined at the point the rotation axis is passing through. The satellites have the distances rad R =1 m, Rp= 0.9 m, and R =1.5 m, from the rotation axis. The system rotates with an angular speed w = 2.3 S %3D mA RA RB RC mc 1. Calculate the moment of inertia /; for this model: /, = kg m2 2. Calculate the magnitude of the angular momentum L; = kg %3D 3. Calculate the rotational kinetic energy K; = J 4. As the system is rotating counter-clockwise the direction of the vector is The mass mc was not properly glued and breaks away during the rotation. 1. Calculate the moment of inertia If for this model now. I= kg m2 2. Using the conservation of angular momentum, calculate the angular speed wf after the mass mc has broken away during rad the rotation. Wf= 3. Calculate the rotational kinetic energy in this situation: K;=

In a satellite model for a science project, given the masses of the three satellites ma= 1.4 kg, mp=2.8 kg, and mc = 4.6 kg that are connected with massless rods, joined at the point the rotation axis is passing through. The satellites have the distances rad R =1 m, Rp= 0.9 m, and R =1.5 m, from the rotation axis. The system rotates with an angular speed w = 2.3 S %3D mA RA RB RC mc 1. Calculate the moment of inertia /; for this model: /, = kg m2 2. Calculate the magnitude of the angular momentum L; = kg %3D 3. Calculate the rotational kinetic energy K; = J 4. As the system is rotating counter-clockwise the direction of the vector is The mass mc was not properly glued and breaks away during the rotation. 1. Calculate the moment of inertia If for this model now. I= kg m2 2. Using the conservation of angular momentum, calculate the angular speed wf after the mass mc has broken away during rad the rotation. Wf= 3. Calculate the rotational kinetic energy in this situation: K;=

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Question

In a satellite model for a science project, given the masses of the three satellites mA=1.4 kg, mp=2.8 kg, and mc =4.6 kg
that are connected with massless rods, joined at the point the rotation axis is passing through. The satellites have the distances
RA=1 m, RB
rad
= 0.9 m, and Rc =1.5 m, from the rotation axis. The system rotates with an angular speed w = 2.3
mA
RA
RB
Rc
MB
1. Calculate the moment of inertia /; for this model: /; =
kg m²
2. Calculate the magnitude of the angular momentum L; =
m2
kg
3. Calculate the rotational kinetic energy K;=
4. As the system is rotating counter-clockwise the direction of the vector is
The mass mc was not properly glued and breaks away during the rotation.
1. Calculate the moment of inertia If for this model now. If=
kg m2
2. Using the conservation of angular momentum, calculate the angular speed wf after the mass mc has broken away during
rad
the rotation. Wf=
3. Calculate the rotational kinetic energy in this situation: K=

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