Two spheresAandBdeep in space are separated by d1 = 9 m, and have masses mA=1020 kg and mB=280 kg. A third sphere C, with mass mC=450 kg is located d2=7.50 m below the centre-of-mass of spheres A and B(ABcm). All distances are measured from the centre-of-mass of each sphere. (a) Compute the centre-of-mass position for A and B(ABcm), using A as the origin.
Two spheresAandBdeep in space are separated by d1 = 9 m, and have masses mA=1020 kg and mB=280 kg. A third sphere C, with mass mC=450 kg is located d2=7.50 m below the centre-of-mass of spheres A and B(ABcm). All distances are measured from the centre-of-mass of each sphere. (a) Compute the centre-of-mass position for A and B(ABcm), using A as the origin.
Chapter4: The Second Law Of Thermodynamics
Section: Chapter Questions
Problem 17CQ: Discuss the entropy changes in the systems of Question 21.10 in terms of disorder.
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Gravity 1. ) Two spheresAandBdeep in space are separated by d1 = 9 m, and have masses mA=1020 kg and mB=280 kg. A third sphere C, with mass mC=450 kg is located d2=7.50 m below the centre-of-mass of spheres A and B(ABcm). All distances are measured from the centre-of-mass of each sphere.
(a) Compute the centre-of-mass position for A and B(ABcm), using A as the origin.
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