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b. What is the acceleration of the pin in the radial direction ? ar = c. What is the acceleration of the pin in the transverse direction? a. = d. What is the normal force of the slot on the pin? N = e. What is the normal force of the rod on the pin? F₁ = ft 82 ft lb Outward lb Counter-Clockwise

b. What is the acceleration of the pin in the radial direction ? ar = c. What is the acceleration of the pin in the transverse direction? a. = d. What is the normal force of the slot on the pin? N = e. What is the normal force of the rod on the pin? F₁ = ft 82 ft lb Outward lb Counter-Clockwise

Elements Of Electromagnetics
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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b. What is the acceleration of the pin in the radial direction ? ar = c. What is the acceleration of the pin in the transverse direction? ae = d. What is the normal force of the slot on the pin? N = e. What is the normal force of the rod on the pin? F₁ = ft s² ft 8² lb Outward lb Counter-Clockwise
Transcribed Image Text:b. What is the acceleration of the pin in the radial direction ? ar = c. What is the acceleration of the pin in the transverse direction? ae = d. What is the normal force of the slot on the pin? N = e. What is the normal force of the rod on the pin? F₁ = ft s² ft 8² lb Outward lb Counter-Clockwise
A slotted rod pushes a pin P with a mass of m = 2 lb along the vertical curved slot shown below. The radial distance, r, from point O to pin P, is given by the equation r = 6 cos() inches do At the instant shown below, 0 = 30°, dt rad 1.2- S and 9 d²0 dt² rad 8²
Transcribed Image Text:A slotted rod pushes a pin P with a mass of m = 2 lb along the vertical curved slot shown below. The radial distance, r, from point O to pin P, is given by the equation r = 6 cos() inches do At the instant shown below, 0 = 30°, dt rad 1.2- S and 9 d²0 dt² rad 8²
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