Activity 2. A 400N body starts up a 30° incline (u = 0.2) with a velocity of 3m/s. How long must a 50ON horizontal force act on the body to increase its velocity to 8m/s? How far will the body travel while the force is acting? (For the First Solution, apply the Resultant Impulse Equation) (For the Second Solution, apply the Impulse-Momentum Equation) (Ans. t = 1.79s; s = 9.85m) V 1400N 500N_ 30
Activity 2. A 400N body starts up a 30° incline (u = 0.2) with a velocity of 3m/s. How long must a 50ON horizontal force act on the body to increase its velocity to 8m/s? How far will the body travel while the force is acting? (For the First Solution, apply the Resultant Impulse Equation) (For the Second Solution, apply the Impulse-Momentum Equation) (Ans. t = 1.79s; s = 9.85m) V 1400N 500N_ 30
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
Related questions
Question
Subject:Dynamics of Rigid Bodies
Topic: "Conservation of Linear Momentum, Resultant Impulse Equation
and Impulse Momentum Equation"
Kindly answer the activity with FBD and complete solution, thankyou.
![Activity 2. A 400N body starts up a 30° incline (µ = 0.2) with a velocity of 3m/s. How
long must a 50ON horizontal force act on the body to increase its velocity to 8m/s? How
far will the body travel while the force is acting?
(For the First Solution, apply the Resultant Impulse Equation)
(For the Second Solution, apply the Impulse-Momentum Equation)
(Ans. t = 1.79s; s = 9.85m)
%3D
%3D
400N
500N
30](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fb22d7a36-956c-4200-ac56-c963568e3cf2%2Ff04fe341-2822-48c6-93b1-6e03e779b21c%2Fceqs2l_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Activity 2. A 400N body starts up a 30° incline (µ = 0.2) with a velocity of 3m/s. How
long must a 50ON horizontal force act on the body to increase its velocity to 8m/s? How
far will the body travel while the force is acting?
(For the First Solution, apply the Resultant Impulse Equation)
(For the Second Solution, apply the Impulse-Momentum Equation)
(Ans. t = 1.79s; s = 9.85m)
%3D
%3D
400N
500N
30
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