Please show every step upon completion. Question 2.1. Jack and Rose had to abandon the ship the R.M.S. Titanic when it sank in the NorthAtlantic. Rose managed to climb onto a door which was floating on the ocean's surface.The door has dimensions of 2.2m x 1.2m x 0.07m and is made of American Red Oakwhich has a density of 740 kg.m3. Jack's mass is 75kg and Rose's mass is 63kg, assumingthat the density of ice cold salt water is 1000 kg.m3 -Could the door support them both until a lifeboat arrives?II. If they attached two lifejackets with a buoyancy force of 5.58 Newtons to thebottom of the door, how much larger would the combined buoyancy force be?I.

Given data: The dimension of door is l×b×h=2.2 m×1.2 m×0.07 m. Density of door is ρd=740 kg/m3.…

Question 2. 1. Jack and Rose had to abandon the ship the R.M.S. Titanic when it sank in the North Atlantic. Rose managed to climb onto a door which was floating on the ocean's surface. The door has dimensions of 2.2m x 1.2m x 0.07m and is made of American Red Oak which has a density of 740 kg.m³. Jack's mass is 75kg and Rose's mass is 63kg, assuming that the density of ice cold salt water is 1000 kg.m³ – I. Could the door support them both until a lifeboat arrives? I. If they attached two lifejackets with a buoyancy force of 5.58 Newtons to the bottom of the door, how much larger would the combined buoyancy force be?

Question 2. 1. Jack and Rose had to abandon the ship the R.M.S. Titanic when it sank in the North Atlantic. Rose managed to climb onto a door which was floating on the ocean's surface. The door has dimensions of 2.2m x 1.2m x 0.07m and is made of American Red Oak which has a density of 740 kg.m³. Jack's mass is 75kg and Rose's mass is 63kg, assuming that the density of ice cold salt water is 1000 kg.m³ – I. Could the door support them both until a lifeboat arrives? I. If they attached two lifejackets with a buoyancy force of 5.58 Newtons to the bottom of the door, how much larger would the combined buoyancy force be?

Physics for Scientists and Engineers: Foundations and Connections

1st Edition

ISBN:9781133939146

Author:Katz, Debora M.

Publisher:Katz, Debora M.

Chapter15: Fluids

Section: Chapter Questions

Problem 30PQ

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