You are moving to a new place and to go faster, you are pushing with a force P, two boxes at thesame time.Your homogenous box 1, on the top has dimensions I₁=1.5m, h₁= 1.6m and a mass of m₁=12kgYour homogenous box 2, on the top has dimensions 1₂=2.4m, h₂= 2.8m and a mass of m2=19kgThe coefficient of static friction between the 2 boxes is $12 = 0.34.The coefficient of static friction between box 2 and the ground is SG2 =0.25.Analyze the 4 scenarios:•Box 1 tips on box 2.• Box 1 slides on box 2..P• Boxes 1 & 2 tip together.• Boxes 1 & 2 slide together on the ground.ls+ Gi+G₂W₂|h₂TFind the minimum for P for all 4 scenarios (include FBD and equations of equilibrium for eachscenario), and conclude which scenario will occur first and why.In the box below, enter the required force P to strat motion (either tipping or slipping) in N withone decimal.

Given: l1=1.5 mh1=1.6 mm1=12 kgl2=2.4 mh2=2.8 mm2=19 kgμs12=0.34μsg2=0.25 To find: Minimum force…

You are moving to a new place and to go faster, you are pushing with a force P, two boxes at the same time. Your homogenous box 1, on the top has dimensions I₁=1.5m, h₁ 1.6m and a mass of m₁-12kg Your homogenous box 2, on the top has dimensions 12=2.4m, h₂= 2.8m and a mass of m₂ = 19kg The coefficient of static friction between the 2 boxes is $12 =0.34. The coefficient of static friction between box 2 and the ground is SG2 = 0.25. P TR Analyze the 4 scenarios: . Box 1 tips on box 2. • Box 1 slides on box 2. • Boxes 1 & 2 tip together. • Boxes 1 & 2 slide together on the ground. W₁ + G₁ + G₂ W₂ |h₂ Find the minimum for P for all 4 scenarios (include FBD and equations of equilibrium for each scenario), and conclude which scenario will occur first and why. In the box below, enter the required force P to strat motion (either tipping or slipping) in N with one decimal.

You are moving to a new place and to go faster, you are pushing with a force P, two boxes at the same time. Your homogenous box 1, on the top has dimensions I₁=1.5m, h₁ 1.6m and a mass of m₁-12kg Your homogenous box 2, on the top has dimensions 12=2.4m, h₂= 2.8m and a mass of m₂ = 19kg The coefficient of static friction between the 2 boxes is $12 =0.34. The coefficient of static friction between box 2 and the ground is SG2 = 0.25. P TR Analyze the 4 scenarios: . Box 1 tips on box 2. • Box 1 slides on box 2. • Boxes 1 & 2 tip together. • Boxes 1 & 2 slide together on the ground. W₁ + G₁ + G₂ W₂ |h₂ Find the minimum for P for all 4 scenarios (include FBD and equations of equilibrium for each scenario), and conclude which scenario will occur first and why. In the box below, enter the required force P to strat motion (either tipping or slipping) in N with one decimal.

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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Question

You are moving to a new place and to go faster, you are pushing with a force P, two boxes at the
same time.
Your homogenous box 1, on the top has dimensions I₁=1.5m, h₁= 1.6m and a mass of m₁=12kg
Your homogenous box 2, on the top has dimensions 1₂=2.4m, h₂= 2.8m and a mass of m2=19kg
The coefficient of static friction between the 2 boxes is $12 = 0.34.
The coefficient of static friction between box 2 and the ground is SG2 =0.25.
Analyze the 4 scenarios:
•
Box 1 tips on box 2.
• Box 1 slides on box 2.
.
P
• Boxes 1 & 2 tip together.
• Boxes 1 & 2 slide together on the ground.
ls
+ Gi
+
G₂
W₂
|h₂
T
Find the minimum for P for all 4 scenarios (include FBD and equations of equilibrium for each
scenario), and conclude which scenario will occur first and why.
In the box below, enter the required force P to strat motion (either tipping or slipping) in N with
one decimal.

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