Redo Exercise 238 from Section 1.4, but instead of a weather satellite with a mass of 1400 kg, calculate how many Joules of work it would take toelevate an almond with a mass of 0.0012 kg to the same altitude. Enter your answer as just a number (no units), rounded to two significant digits(remember, that's not the same as two decimal places!) (238) F(x) = G₁MM = (6.67 · 10-1). (1400) (5.97219-108²4) ~ 5.57·1017Work done lifting from Earth surface (6,371,000 m)X²X²x²(units are kg. 5²,↑to orbiting altitude (6,37) km +850 km = 7,221 km = 7,221,000 m)Msec²a.k.a. Newtons)ispraz1272231-1046 5.57.108016.371.106x²=5.57.1056.371-1067221-106= (5,57-102²) - x 22²221 10 = 5,57 - 108² x 16.5715186[X-176.371-·106$6.371.1067.221-1865.57.10¹177.221.10⁰10" (5.57 - $57) ≈ 1.03. 10¹" N´m, aka5.57=~6.371[7.03×10⁰ Joules

Given data- Mass of an almond m=0.0012 kg Altitude from earth surface is 850 km.

Redo Exercise 238 from Section 1.4, but instead of a weather satellite with a mass of 1400 kg, calculate how many Joules of work it would take to elevate an almond with a mass of 0.0012 kg to the same altitude. Enter your answer as just a number (no units), rounded to two significant digits (remember, that's not the same as two decimal places!)

Redo Exercise 238 from Section 1.4, but instead of a weather satellite with a mass of 1400 kg, calculate how many Joules of work it would take to elevate an almond with a mass of 0.0012 kg to the same altitude. Enter your answer as just a number (no units), rounded to two significant digits (remember, that's not the same as two decimal places!)

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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