Two uniform spheres are positioned as shown. Determine the gravitational force F which the titanium sphere exerts on the coppersphere. The value of R is 30 mm.Assume a = 5.1, b = 2.6, 0=33°.yCopperTRaRTitaniumӨbR--x Your answer is partially correct.Calculate the mass of each sphere.Assume a = 5.1, b = 2.6, 0-33.1RaRᎾTitaniumAnswers:Titanium sphere m₁ =Copper spheremc=CopperbRx0.50894i17.77kgkg

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Description: Two uniform spheres are positioned as shown. Determine the gravitational force F which the titanium sphere exerts on the coppersphere. The value of R is 30 mm.Assume a = 5.1, b = 2.6, 0=33°.yCopperTRaRTitaniumӨbR--x Your answer is partially correct.

Calculate the masses of titanium and copper spheres. mt=ρtVt=ρt43πrt3=4500 kg/m343π0.030 m3=0.50894…

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Mechanical Engineering

Two uniform spheres are positioned as shown. Determine the gravitational force F which the titanium sphere exerts on the copper sphere. The value of R is 30 mm. Assume a = 5.1, b = 2.6, 0=33° y 1 R aR Titanium e Copper bR x

Two uniform spheres are positioned as shown. Determine the gravitational force F which the titanium sphere exerts on the copper sphere. The value of R is 30 mm. Assume a = 5.1, b = 2.6, 0=33° y 1 R aR Titanium e Copper bR x

International Edition---engineering Mechanics: Statics, 4th Edition

4th Edition

ISBN:9781305501607

Author:Andrew Pytel And Jaan Kiusalaas

Publisher:Andrew Pytel And Jaan Kiusalaas

Chapter8: Centroids And Distributed Loads

Section: Chapter Questions

Problem 8.110P: The intensity of the line loading acting on a quarter circle is w=w0(2/). Use intergration to...

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