now the pattern is clear—every rotational phenomenon has a direct translational analog. It seems quite reasonable, then, to define angular momentum LL as L=Iω.L=Iω. This equation is an analog to the definition of linear momentum as p=mv.p=mv. Units for linear momentum are kg⋅m/skg⋅m/s while units for angular momentum are kg⋅m2/s.kg⋅m2/s. As we would expect, an object that has a large moment of inertia I,I, such as Earth, has a very large angular momentum. An object that has a large angular velocity ω,ω, such as a centrifuge, also has a rather large angular momentum.
okk bye pavan..gn tc..
talk with you on march..
Answers & Comments
Answer:
all the best miss cuz tomorrow is your exam
Explanation:
are kg⋅m/skg⋅m/s while units for angular momentum are kg⋅m2/s.kg⋅m2/s. As we would expect, an object that has a large moment of inertia I,I, such as Earth, has a very large angular momentum. An object that has a large angular velocity ω,ω, such as a centrifuge, also has a rather large angular momentum.
okk bye pavan..gn tc..
talk with you on march
Answer:
The field is similar to that of a bar magnet. The Earth's magnetic field is mostly caused by electric currents in the liquid outer core. The Earth's core is hotter than 1043 K, the Curie point temperature above which the orientations of spins within iron become randomized.
Explanation: