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.
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Answers & Comments
Answer:
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Answer:
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Explanation:
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.
Mere bhai..Teri ye wish kabhi grant nahi ho sakti..Kuch aur wish kar..except my parents name and phone no..