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Crowd Control

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Crowd Control A Study In Forced Submission Brant Bennett, Mariana Dionisio, Sami Karam, Amy Robertson, Michael Steele Rioting and Anarchy Order = Safety Coercion May ... – PowerPoint PPT presentation

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Title: Crowd Control


1
Crowd Control
  • A Study In Forced Submission

Brant Bennett, Mariana Dionisio, Sami Karam, Amy
Robertson, Michael Steele
2
Rioting and Anarchy
  • Order Safety
  • Coercion May Be Necessary to Maintain Order

Police and Protesters Clash April 20, 2001 Quebec
3
Why Water Cannons?
  • Polices job - maximize safety
  • Guns Are Lethal
  • Less Lethal Better

4
Why Water Cannons?
  • Police must protect themselves as well

5
Why Water Cannons?
  • Water cannons
  • effective
  • non-lethal
  • Safe For Public Police

6
Problem
  • Given v 42 ft/s A 0.1 ft2/s
  • vertical shield
  • horizontal, steady flow
  • Find Force necessary to hold a shield in place
    against a horizontal jet of water

7
Problem
  • Assume
  • Water Density (?) 1.94 slug/ft3
  • Steady, Incompressible, Plug Flow
  • Plan
  • Momentum Balance Equation

8
Solution
  • Rate of accumulation of momentum
  • Rate of momentum IN
  • - Rate of momentum OUT
  • Sum of Forces Acting On Control Volume


9
Solution
  • Momentum Balance Equation
  • SFx ?/?t òòòCV ?dV òòCS ?vx (v.n)dA
  • ? - density vx - speed, x axis
  • v - velocity vector n - area vector
  • CV - control volume CS - control area(s)

10
Solution
  • SFx ?/?t òòòCV ?dV òòCS ?vx (v.n)dA

0 (Steady State)
Integrate only where there is mass flux (water
crossing boundary)
11
Solution
  • SFx òòCS ?vx (v.n)dA
  • òòCS1 ?vx (v.n)dA
  • òòCS2 ?vx (v.n)dA
  • òòCS3 ?vx (v.n)dA

12
Solution
  • SFx òòCS1 ?vx (v.n)dA
  • òòCS2 ?vx (v.n)dA
  • òòCS3 ?vx (v.n)dA
  • v.n vn cosT (where T is the angle between
    v and n) so

13
Solution
  • òòCS1 ?vx (v.n)dA òòCS2 ?vx (v.n)dA
  • òòCS3 ?vx (v.n)dA
  • Is identically equal to
  • òòCS1 ?vxvncosT1 dA òòCS2 ?vxvncosT2 dA
  • òòCS3 ?vxvncosT3 dA

14
Solution
  • vx (CS2) 0 vx (CS3) 0
  • so SFx
  • òòCS1 ?vxvncosT1 dA òòCS2 ?vxvncosT2 dA
  • òòCS3 ?vxvncosT3 dA

0
0
15
Solution
  • SFx òòCS1 ?vxvncosT1 dA
  • ?cosT1 constant with respect to x and y
  • SFx ?cosT1òòCS1 vxvn dA
  • T1 ? gt cos T1 -1

1
16
Solution
  • SFx ?cosT1òòCS1 vxv dA
  • -?òòCS1 vxv dA
  • v constant with x y (plug flow, steady state)

-1
17
Solution
  • SFx -?vxvòòCS1 dA -?vxvA
  • vx v (flow on x axis only)
  • Resultant Force (R) SFx -?v2A

18
Solution R -?v2A -(1.94 slug/ft
3)(42ft/s)2(0.1ft2)(lbfs2/slug/ft)
  • -342 lbf
  • Effective means of submission less lethal than
    gun
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