(ii) Calculate the impact force that the bullet exerts on the block if the impact time was 5.5 x 10-4s. (iv) If the coefficient of kinetic friction between the block and the surface is µg = 0.35, determine the distance of the block will slide before it stops. 400 m/s

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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Please solve using these equations

Fundamental Equation of Dynamics
KINAMATICS
Particle Rectilinear motion:
Equations of Motion:
Variable a
?=???? ?=???? ???=???
Constant a = ac ?=?0+??? ?=?0+?0?+12???2 ?2=?02+2??(?−?0)
Particle : Σ?=??
Rigid Body : Σ??=?(??)?
(Plane Motion) Σ??=?(??)?
Σ??=??? or Σ??=Σ(ℳ?)?
Particle Curvilinear Motion:
Cartesian Coordinates (x,y,z) ??=?̇ ??=?̈ ??=? ̇ ??=?̈ ??=?̇ ??=?̈
Polar Coordinates (r,θ,z) ??=? ̇ ??=?̈−??̇2 ??=??̇ ??=??̈+2?̇?̇ ??=?̇ ??=?̈
Normal-Tangential Coordinates (n,t,b)
?=?̇ ; ??=?̇=????? ; ??=?2?
?ℎ??? ?=[1+(??/??)2]32⁄|?2?/??2|
Principle of Work and Energy: ?1+?1−2=?2
Kinetic Energy
Particle : ?=12??2
Rigid Body : ?=12???2+ 12???2
(Plane Motion) or ?= 12???2
Work
Variable Force : ??=∫?cos???
Constant Force: ??=(?cos?)Δ?
Weight : ??=−?Δ?
Spring : ??= −(12??22−12??12)
Couple of Moment: ??=? Δ?
Power and Efficiency ?=????=?? , ∈= ???????=???????
Relative Motion ?B=?A+?B/A ?B=?A+?B/A
Rigid Body Motion About a Fixed Axis
Conservation of Energy Theorem ?1+?1=?2+?2
Potential Energy ?=?g+?e
Where:
?g=± Wy , ?e=+12??2
Variable a ?=?????=???? ???=???
Constant a = ac ?=?0+??? ?=?0+?0?+12???2 ?2=?02+2??(?−?0)
Principle of linear Impulse and Momentum:
Particle : ??1+Σ∫???= ??2
Rigid Body: ?(??)1+Σ∫???= ?(??)2
For Point P
s=θr , v=ωr , a?=αr , a?=ω2r
Relative General Plane Motion-Translating Axes ?B=?A+?B/A(pin)?B=?A+?B/A(pin)
Relative General Plane Motion-Tran. And Rot. Axis ?B=?A+?×?B/A+(?B/A)??? ?B=?A+?̇×?B/A+?×(?×?B/A)+2?×(?B/A)???+(?B/A)???
Kinetics
Mass Moment of Inertia ?=∫?2??
Parallel-Axis Theory ?=??+? ?2
Radius of Gyration ?=√??
Conservation of Linear Momentum: Σ(??)1=Σ(??)2
Coefficient of Restitution ?=(??)2−(??)2(??)1−(??)1
Principle of Angular Impulse and Momentum:
Particle : (??)1+Σ∫????= (??)2
Where ??=(?)(??)
Rigid Body : (??)1+Σ∫????= (??)2
(Plane Motion)
Where ??=??? (??)1+Σ∫????= (??)2
Where ??=???
Conservation of Angular Momentum Σ(?)1=Σ(?)2

Q4
Figure Q4 shows the 50g bullet is travelling horizontally at 400m/s strikes a stationary
wooden block with 2kg of mass resting on a smooth surface and embedded inside.
(i)
Describe which kinetics principle should be considered.
(ii)
Determine the velocity of the bullet and block after the collision.
Transcribed Image Text:Q4 Figure Q4 shows the 50g bullet is travelling horizontally at 400m/s strikes a stationary wooden block with 2kg of mass resting on a smooth surface and embedded inside. (i) Describe which kinetics principle should be considered. (ii) Determine the velocity of the bullet and block after the collision.
(11)
Calculate the impact force that the bullet exerts on the block if the impact time
was 5.5 x 10-4 s.
(iv) If the coefficiet of kinetic friction between the block and the surface is µg =
0.35, determine the distance of the block will slide before it stops.
400 m/s
Figure Q4
Transcribed Image Text:(11) Calculate the impact force that the bullet exerts on the block if the impact time was 5.5 x 10-4 s. (iv) If the coefficiet of kinetic friction between the block and the surface is µg = 0.35, determine the distance of the block will slide before it stops. 400 m/s Figure Q4
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