> Assign2 Oli education.wiley.com My Weekly Schedule (12) FRESH LA DOUILL... b Success Confirmation... WP Homework 5 - Fall 2024 WP Question 1 of 3 - Hom... × W Question 1 (Read Only) Calculate the vertical acceleration of the system mass center and the individual vertical accelerations of spheres 1 and 2 for the cases (a) a = ẞ = 28° and (b) a = 28° and ẞ = 34°. Each sphere has a mass of 3.8 kg, and the 93-N force is applied vertically to the junction O of the two light wires. The spheres are initially at rest. D2L Semaine 6.2_Flexion_... 3.8 kg 1 Answers: F = 93 N α β 2 3.8 kg (a) aycm³ m/s² ay1 = m/s² ay2 = m/s² (b) aycm = = m/s² ay1 = m/s² ay2 = m/s²
> Assign2 Oli education.wiley.com My Weekly Schedule (12) FRESH LA DOUILL... b Success Confirmation... WP Homework 5 - Fall 2024 WP Question 1 of 3 - Hom... × W Question 1 (Read Only) Calculate the vertical acceleration of the system mass center and the individual vertical accelerations of spheres 1 and 2 for the cases (a) a = ẞ = 28° and (b) a = 28° and ẞ = 34°. Each sphere has a mass of 3.8 kg, and the 93-N force is applied vertically to the junction O of the two light wires. The spheres are initially at rest. D2L Semaine 6.2_Flexion_... 3.8 kg 1 Answers: F = 93 N α β 2 3.8 kg (a) aycm³ m/s² ay1 = m/s² ay2 = m/s² (b) aycm = = m/s² ay1 = m/s² ay2 = m/s²
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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(12) FRESH LA DOUILL... b Success Confirmation... WP Homework 5 - Fall 2024
WP Question 1 of 3 - Hom... × W Question 1 (Read Only)
Calculate the vertical acceleration of the system mass center and the individual vertical accelerations of spheres 1 and 2 for the cases (a) a = ẞ = 28° and (b) a = 28° and ẞ = 34°. Each sphere has a
mass of 3.8 kg, and the 93-N force is applied vertically to the junction O of the two light wires. The spheres are initially at rest.
D2L Semaine 6.2_Flexion_...
3.8 kg
1
Answers:
F = 93 N
α β
2
3.8 kg
(a) aycm³
m/s²
ay1 =
m/s²
ay2 =
m/s²
(b) aycm =
=
m/s²
ay1 =
m/s²
ay2 =
m/s²
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