Figure 6.26 shows a flywheel of mass 12 kg and radius 50 cm with a rope wrapped around it. On the end of the rope is a
2.0 kg load. Initially it is at rest.
a) Calculate the torque on the flywheel. Assume g to be
9.8 m/s.
b) Work out what its angular momentum will be after 2.5 s.
Angular momentum is a vector and so will have a direction. You
can use the right-hand rule to show its direction.​

the gas collects in coils that then becomes a liquid that then flows through the coils inside the refrigerator

as we probably am aware that our atmosphere or air have various levels, each level has different gasses, and each gas has another porousness. at the point when the light originates from lower porousness to higher penetrability, it alters its course. with the goal that implies that when the light originates from the moon to the earth, it alters it's course a lot more occasions. it essentially implies that the state of the light piece of the moon is changed on the earth.

not copied too! hope this !

joke:

h o h o hope you have a merry christmas!