Learning Activity 4- Gravitational field as a vector1. Three masses are located in the vertices of an equilateraltriangle. Calculate the magnitude and direction of thegravitational force on the mass m¡. Given: m, = 38 kg, m: =340 kg, m, = 340 kg, r = 38 m. G = 6.674×10-11 N m?/kg?.Directions: Solve the problem setsmrm32. Three masses are located in the corners of an equilateraltriangle. Find the magnitude and direction of the gravitationalfield at the center of the triangle. Given: m =kg, m; = 30 kg, r= 12 cm. G = 6.674×10–11 N-m²/kg².m122 kg, mz = 30m2m33. Four masses are at the vertices of a square. Find themagnitude of the gravitational force on the mass m,. Given: m4m; = 6 kg, mz = 80 kg, m3 = 80 kg, ma = 80 kg r = 24 m. G3D6.674x10-11N-m²/kg?.m3%3Dbleiaorm2m44. Four masses are located in the corners of a square.Calculate the magnitude and direction of the gravitationalfield at the center of the square. Given: m, = 85 kg, m2 = 3kg, m3 = 3 kg, m4 = 85 kg r = 8 m, G = 6.674x10-11N.m?/kg?.5. Two masses m, = 350 kg and m2 = 350 kg are at adistance of 22 m from each other. Find the magnitudeand direction of the gravitational field at point A. Data: h= 9 m, G = 6.674×10-11 N m²/kg?.m389%3D%3Drm,m2%3Dm2m,no bleil lanouetivsio to emsido191o 2mCivitaAimedalea moldodongcolsnals at all tim2.

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Description: Learning Activity 4- Gravitational field as a vector1. Three masses are located in the vertices of an equilateraltriangle. Calculate the magnitude and direction of thegravitational force on the mass m¡. Given: m, = 38 kg, m: =340 kg, m, = 340 kg, r

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Three masses are located in the vertices of an equilateral triangle. Calculate the magnitude and direction of the gravitational force on the mass m,. Given: m, = 340 kg, m, = 340 kg, r = 38 m. G = 6.674×10-11 N m2/kg? Direct m, 38 kg, m: = m2 m3

Three masses are located in the vertices of an equilateral triangle. Calculate the magnitude and direction of the gravitational force on the mass m,. Given: m, = 340 kg, m, = 340 kg, r = 38 m. G = 6.674×10-11 N m2/kg? Direct m, 38 kg, m: = m2 m3

Physics for Scientists and Engineers: Foundations and Connections

1st Edition

ISBN:9781133939146

Author:Katz, Debora M.

Publisher:Katz, Debora M.

Chapter7: Gravity

Section: Chapter Questions

Problem 64PQ

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