SlideShare une entreprise Scribd logo

6 friction fe

E
ELIMENG
1  sur  8
Télécharger pour lire hors ligne
Engineering Mechanics: Statics The Laws of Dry Friction. Coefficients of Friction • Block of weight W placed on horizontal surface. Forces acting on block are its weight and reaction of surface N. • Small horizontal force P applied to block. For block to remain stationary, in equilibrium, a horizontal component F of the surface reaction is required. F is a static-friction force. . 8 - 1 is required. F is a static-friction force. • As P increases, the static-friction force F increases as well until it reaches a maximum value Fm. NF sm µ= • Further increase in P causes the block to begin to move as F drops to a smaller kinetic-friction force Fk. NF kk µ=
Engineering Mechanics: Statics The Laws of Dry Friction. Coefficients of Friction • Four situations can occur when a rigid body is in contact with a horizontal surface: . 8 - 2 • No friction, (Px = 0) • No motion, (Px < Fm) • Motion impending, (Px = Fm) • Motion, (Px > Fm)
Engineering Mechanics: Statics Angles of Friction • It is sometimes convenient to replace normal force N and friction force F by their resultant R: . 8 - 3 • No friction • Motion impending• No motion ss sm s N N N F µφ µ φ = == tan tan • Motion kk kk k N N N F µφ µ φ = == tan tan
Engineering Mechanics: Statics Angles of Friction • Consider block of weight W resting on board with variable inclination angle θ. . 8 - 4 • No friction • No motion • Motion impending • Motion
Engineering Mechanics: Statics Problems Involving Dry Friction . 8 - 5 • All applied forces known • Coefficient of static friction is known • Determine whether body will remain at rest or slide • All applied forces known • Motion is impending • Determine value of coefficient of static friction. • Coefficient of static friction is known • Motion is impending • Determine magnitude or direction of one of the applied forces
Engineering Mechanics: Statics Sample Problem SOLUTION: • Determine values of friction force and normal reaction force from plane required to maintain equilibrium. • Calculate maximum friction force and compare with friction force required for equilibrium. If it is greater, block will not slide. . 8 - 6 A 100 lb force acts as shown on a 300 lb block placed on an inclined plane. The coefficients of friction between the block and plane are µs = 0.25 and µk = 0.20. Determine whether the block is in equilibrium and find the value of the friction force. greater, block will not slide. • If maximum friction force is less than friction force required for equilibrium, block will slide. Calculate kinetic-friction force.
Engineering Mechanics: Statics Sample Problem SOLUTION: • Determine values of friction force and normal reaction force from plane required to maintain equilibrium. :0=∑ xF ( ) 0lb300-lb100 5 3 =− F lb80−=F :0=∑F ( ) 0lb300- 4 =N . 8 - 7 :0=∑ yF ( ) 0lb300- 5 4 =N lb240=N • Calculate maximum friction force and compare with friction force required for equilibrium. If it is greater, block will not slide. ( ) lb48lb24025.0 === msm FNF µ The block will slide down the plane.
Engineering Mechanics: Statics Sample Problem • If maximum friction force is less than friction force required for equilibrium, block will slide. Calculate kinetic-friction force. ( )lb24020.0= == NFF kkactual µ lb48=actualF . 8 - 8

Recommandé

Friction
FrictionFriction
FrictionEkeeda
 
friction.pdf
friction.pdffriction.pdf
friction.pdfMalithMadushan1
 
Problems on simply supported beams (udl , uvl and couple)
Problems on simply supported beams (udl , uvl and couple)Problems on simply supported beams (udl , uvl and couple)
Problems on simply supported beams (udl , uvl and couple)sushma chinta
 
Shear Force And Bending Moment Diagram For Beam And Frame
Shear Force And Bending Moment Diagram For Beam And FrameShear Force And Bending Moment Diagram For Beam And Frame
Shear Force And Bending Moment Diagram For Beam And Framegueste4b1b7
 
Chapter 8 principle of virtual work
Chapter 8 principle of virtual workChapter 8 principle of virtual work
Chapter 8 principle of virtual workramana4uiitm
 
Multiple Degree of Freedom (MDOF) Systems
Multiple Degree of Freedom (MDOF) SystemsMultiple Degree of Freedom (MDOF) Systems
Multiple Degree of Freedom (MDOF) SystemsMohammad Tawfik
 
Friction And Wedges
Friction And WedgesFriction And Wedges
Friction And Wedgesvinaykumars
 
Trusses The Method Of Sections
Trusses The Method Of SectionsTrusses The Method Of Sections
Trusses The Method Of SectionsAmr Hamed
 

Recommandé

Friction
FrictionFriction
FrictionEkeeda
 
friction.pdf
friction.pdffriction.pdf
friction.pdfMalithMadushan1
 
Problems on simply supported beams (udl , uvl and couple)
Problems on simply supported beams (udl , uvl and couple)Problems on simply supported beams (udl , uvl and couple)
Problems on simply supported beams (udl , uvl and couple)sushma chinta
 
Shear Force And Bending Moment Diagram For Beam And Frame
Shear Force And Bending Moment Diagram For Beam And FrameShear Force And Bending Moment Diagram For Beam And Frame
Shear Force And Bending Moment Diagram For Beam And Framegueste4b1b7
 
Chapter 8 principle of virtual work
Chapter 8 principle of virtual workChapter 8 principle of virtual work
Chapter 8 principle of virtual workramana4uiitm
 
Multiple Degree of Freedom (MDOF) Systems
Multiple Degree of Freedom (MDOF) SystemsMultiple Degree of Freedom (MDOF) Systems
Multiple Degree of Freedom (MDOF) SystemsMohammad Tawfik
 
Friction And Wedges
Friction And WedgesFriction And Wedges
Friction And Wedgesvinaykumars
 
Trusses The Method Of Sections
Trusses The Method Of SectionsTrusses The Method Of Sections
Trusses The Method Of SectionsAmr Hamed
 
7 stress transformations
7 stress transformations7 stress transformations
7 stress transformationsMohamed Yaser
 
SFD & BMD
SFD & BMDSFD & BMD
SFD & BMDRavi Vishwakarma
 
Stress & Strain PPT.ppt
Stress & Strain PPT.pptStress & Strain PPT.ppt
Stress & Strain PPT.pptBodhiSeal1
 
Shear Force and Bending Moment
Shear Force and Bending MomentShear Force and Bending Moment
Shear Force and Bending MomentAbdul Majid
 
Shear stresses in beams p
Shear stresses in beams pShear stresses in beams p
Shear stresses in beams psushma chinta
 
SHEAR CENTRE
SHEAR CENTRESHEAR CENTRE
SHEAR CENTREసుధీర్ నెలకుదిటి
 
Complex stresses
Complex stressesComplex stresses
Complex stressesShivendra Nandan
 
Deflection
DeflectionDeflection
DeflectionShivendra Nandan
 
SFD & BMD Shear Force & Bending Moment Diagram
SFD & BMD Shear Force & Bending Moment DiagramSFD & BMD Shear Force & Bending Moment Diagram
SFD & BMD Shear Force & Bending Moment DiagramSanjay Kumawat
 
Macaulay's Method & Poisson's Ratio
Macaulay's Method & Poisson's RatioMacaulay's Method & Poisson's Ratio
Macaulay's Method & Poisson's RatioLeicester College- Technology & Engineering Centre
 
Simple stresses and Stain
Simple stresses and StainSimple stresses and Stain
Simple stresses and StainHamood Saif
 
Stability of Submerged Bodies in Fluid
Stability of Submerged Bodies in FluidStability of Submerged Bodies in Fluid
Stability of Submerged Bodies in FluidAnkit Singhal
 
Simple stresses and strains
Simple stresses and strains Simple stresses and strains
Simple stresses and strains JISHNU V
 
Undamped Free Vibration
Undamped Free VibrationUndamped Free Vibration
Undamped Free VibrationUrvish Patel
 
D alemberts principle
D alemberts principleD alemberts principle
D alemberts principlePralhad Kore
 
ANALYSIS OF CONTINUOUS BEAM USING STIFFNESS METHOD
ANALYSIS OF CONTINUOUS BEAM USING STIFFNESS METHODANALYSIS OF CONTINUOUS BEAM USING STIFFNESS METHOD
ANALYSIS OF CONTINUOUS BEAM USING STIFFNESS METHODkasirekha
 
Engineering Mechanics 1st Year
Engineering Mechanics 1st YearEngineering Mechanics 1st Year
Engineering Mechanics 1st YearEkeeda
 
Force Force and Displacement Matrix Method
Force Force and Displacement Matrix MethodForce Force and Displacement Matrix Method
Force Force and Displacement Matrix MethodAayushi5
 
Resonance and natural frequency, uses and precautions nis
Resonance and natural frequency, uses and precautions nisResonance and natural frequency, uses and precautions nis
Resonance and natural frequency, uses and precautions nisMichael Marty
 
Shear Force and Bending Moment Diagrams for Uniformly Varying Loads
Shear Force and Bending Moment Diagrams for Uniformly Varying LoadsShear Force and Bending Moment Diagrams for Uniformly Varying Loads
Shear Force and Bending Moment Diagrams for Uniformly Varying LoadsKrishna Chaitanya Mummareddy
 
Ppt Friction
Ppt FrictionPpt Friction
Ppt Frictionffiala
 
Friction, types of friction and different laws of friction
Friction, types of friction and different laws of frictionFriction, types of friction and different laws of friction
Friction, types of friction and different laws of frictionPoornima Group of Institutions, Jaipur
 

Contenu connexe

Tendances

7 stress transformations
7 stress transformations7 stress transformations
7 stress transformationsMohamed Yaser
 
Stress & Strain PPT.ppt
Stress & Strain PPT.pptStress & Strain PPT.ppt
Stress & Strain PPT.pptBodhiSeal1
 
Shear Force and Bending Moment
Shear Force and Bending MomentShear Force and Bending Moment
Shear Force and Bending MomentAbdul Majid
 
Shear stresses in beams p
Shear stresses in beams pShear stresses in beams p
Shear stresses in beams psushma chinta
 
SFD & BMD Shear Force & Bending Moment Diagram
SFD & BMD Shear Force & Bending Moment DiagramSFD & BMD Shear Force & Bending Moment Diagram
SFD & BMD Shear Force & Bending Moment DiagramSanjay Kumawat
 
Simple stresses and Stain
Simple stresses and StainSimple stresses and Stain
Simple stresses and StainHamood Saif
 
Stability of Submerged Bodies in Fluid
Stability of Submerged Bodies in FluidStability of Submerged Bodies in Fluid
Stability of Submerged Bodies in FluidAnkit Singhal
 
Simple stresses and strains
Simple stresses and strains Simple stresses and strains
Simple stresses and strains JISHNU V
 
Undamped Free Vibration
Undamped Free VibrationUndamped Free Vibration
Undamped Free VibrationUrvish Patel
 
D alemberts principle
D alemberts principleD alemberts principle
D alemberts principlePralhad Kore
 
ANALYSIS OF CONTINUOUS BEAM USING STIFFNESS METHOD
ANALYSIS OF CONTINUOUS BEAM USING STIFFNESS METHODANALYSIS OF CONTINUOUS BEAM USING STIFFNESS METHOD
ANALYSIS OF CONTINUOUS BEAM USING STIFFNESS METHODkasirekha
 
Engineering Mechanics 1st Year
Engineering Mechanics 1st YearEngineering Mechanics 1st Year
Engineering Mechanics 1st YearEkeeda
 
Force Force and Displacement Matrix Method
Force Force and Displacement Matrix MethodForce Force and Displacement Matrix Method
Force Force and Displacement Matrix MethodAayushi5
 
Resonance and natural frequency, uses and precautions nis
Resonance and natural frequency, uses and precautions nisResonance and natural frequency, uses and precautions nis
Resonance and natural frequency, uses and precautions nisMichael Marty
 
Shear Force and Bending Moment Diagrams for Uniformly Varying Loads
Shear Force and Bending Moment Diagrams for Uniformly Varying LoadsShear Force and Bending Moment Diagrams for Uniformly Varying Loads
Shear Force and Bending Moment Diagrams for Uniformly Varying LoadsKrishna Chaitanya Mummareddy
 

Tendances (20)

7 stress transformations
7 stress transformations7 stress transformations
7 stress transformations
 
SFD & BMD
SFD & BMDSFD & BMD
SFD & BMD
 
Stress & Strain PPT.ppt
Stress & Strain PPT.pptStress & Strain PPT.ppt
Stress & Strain PPT.ppt
 
Shear Force and Bending Moment
Shear Force and Bending MomentShear Force and Bending Moment
Shear Force and Bending Moment
 
Shear stresses in beams p
Shear stresses in beams pShear stresses in beams p
Shear stresses in beams p
 
SHEAR CENTRE
SHEAR CENTRESHEAR CENTRE
SHEAR CENTRE
 
Complex stresses
Complex stressesComplex stresses
Complex stresses
 
Deflection
DeflectionDeflection
Deflection
 
SFD & BMD Shear Force & Bending Moment Diagram
SFD & BMD Shear Force & Bending Moment DiagramSFD & BMD Shear Force & Bending Moment Diagram
SFD & BMD Shear Force & Bending Moment Diagram
 
Macaulay's Method & Poisson's Ratio
Macaulay's Method & Poisson's RatioMacaulay's Method & Poisson's Ratio
Macaulay's Method & Poisson's Ratio
 
Simple stresses and Stain
Simple stresses and StainSimple stresses and Stain
Simple stresses and Stain
 
Stability of Submerged Bodies in Fluid
Stability of Submerged Bodies in FluidStability of Submerged Bodies in Fluid
Stability of Submerged Bodies in Fluid
 
Simple stresses and strains
Simple stresses and strains Simple stresses and strains
Simple stresses and strains
 
Undamped Free Vibration
Undamped Free VibrationUndamped Free Vibration
Undamped Free Vibration
 
D alemberts principle
D alemberts principleD alemberts principle
D alemberts principle
 
ANALYSIS OF CONTINUOUS BEAM USING STIFFNESS METHOD
ANALYSIS OF CONTINUOUS BEAM USING STIFFNESS METHODANALYSIS OF CONTINUOUS BEAM USING STIFFNESS METHOD
ANALYSIS OF CONTINUOUS BEAM USING STIFFNESS METHOD
 
Engineering Mechanics 1st Year
Engineering Mechanics 1st YearEngineering Mechanics 1st Year
Engineering Mechanics 1st Year
 
Force Force and Displacement Matrix Method
Force Force and Displacement Matrix MethodForce Force and Displacement Matrix Method
Force Force and Displacement Matrix Method
 
Resonance and natural frequency, uses and precautions nis
Resonance and natural frequency, uses and precautions nisResonance and natural frequency, uses and precautions nis
Resonance and natural frequency, uses and precautions nis
 
Shear Force and Bending Moment Diagrams for Uniformly Varying Loads
Shear Force and Bending Moment Diagrams for Uniformly Varying LoadsShear Force and Bending Moment Diagrams for Uniformly Varying Loads
Shear Force and Bending Moment Diagrams for Uniformly Varying Loads
 

En vedette

Ppt Friction
Ppt FrictionPpt Friction
Ppt Frictionffiala
 
Bridge Design Presentation, Mechanics Statics
Bridge Design Presentation, Mechanics StaticsBridge Design Presentation, Mechanics Statics
Bridge Design Presentation, Mechanics StaticsAdibah Hanusi
 
6161103 8.2 problems involving dry friction
6161103 8.2 problems involving dry friction6161103 8.2 problems involving dry friction
6161103 8.2 problems involving dry frictionetcenterrbru
 
L6 Causes Of Flooding
L6 Causes Of FloodingL6 Causes Of Flooding
L6 Causes Of Floodingtudorgeog
 
Managing Floods
Managing FloodsManaging Floods
Managing FloodsMrs Coles
 
research-methodology-ppt
research-methodology-ppt research-methodology-ppt
research-methodology-pptsheetal321
 

En vedette (20)

Ppt Friction
Ppt FrictionPpt Friction
Ppt Friction
 
Friction, types of friction and different laws of friction
Friction, types of friction and different laws of frictionFriction, types of friction and different laws of friction
Friction, types of friction and different laws of friction
 
Friction
FrictionFriction
Friction
 
Friction
FrictionFriction
Friction
 
Friction
FrictionFriction
Friction
 
Friction
FrictionFriction
Friction
 
Bridge Design Presentation, Mechanics Statics
Bridge Design Presentation, Mechanics StaticsBridge Design Presentation, Mechanics Statics
Bridge Design Presentation, Mechanics Statics
 
6161103 8.2 problems involving dry friction
6161103 8.2 problems involving dry friction6161103 8.2 problems involving dry friction
6161103 8.2 problems involving dry friction
 
Bridge Basics
Bridge BasicsBridge Basics
Bridge Basics
 
L6 Causes Of Flooding
L6 Causes Of FloodingL6 Causes Of Flooding
L6 Causes Of Flooding
 
Science friction
Science frictionScience friction
Science friction
 
Friction problems
Friction problemsFriction problems
Friction problems
 
Friction
FrictionFriction
Friction
 
Managing Floods
Managing FloodsManaging Floods
Managing Floods
 
Friction and belt drives
Friction and belt drivesFriction and belt drives
Friction and belt drives
 
Friction
FrictionFriction
Friction
 
statics
staticsstatics
statics
 
Basic Principles of Statics
Basic Principles of StaticsBasic Principles of Statics
Basic Principles of Statics
 
research-methodology-ppt
research-methodology-ppt research-methodology-ppt
research-methodology-ppt
 
friction ppt
friction pptfriction ppt
friction ppt
 

Similaire à 6 friction fe

ENG MECHANICS _FRICITION.pptx
ENG MECHANICS _FRICITION.pptxENG MECHANICS _FRICITION.pptx
ENG MECHANICS _FRICITION.pptxBARUNSINGH43
 
Engineering Mechanice Lecture 07
Engineering Mechanice Lecture 07Engineering Mechanice Lecture 07
Engineering Mechanice Lecture 07Self-employed
 
5. friction
5. friction5. friction
5. frictionEkeeda
 
Friction1
Friction1Friction1
Friction1Ekeeda
 
221_Friction_Proc_Fall_2010.pdf
221_Friction_Proc_Fall_2010.pdf221_Friction_Proc_Fall_2010.pdf
221_Friction_Proc_Fall_2010.pdfduonglacbk
 
Unit 3 mm9400 ver1.1(2014)
Unit 3 mm9400 ver1.1(2014)Unit 3 mm9400 ver1.1(2014)
Unit 3 mm9400 ver1.1(2014)all_engineering
 
Unit 6- Plate Bending Theory.pdf
Unit 6- Plate Bending Theory.pdfUnit 6- Plate Bending Theory.pdf
Unit 6- Plate Bending Theory.pdfPreSheet
 
Ah 05 b coefficient of friction(wood and felt on plastic track)
Ah 05 b coefficient of friction(wood and felt on plastic track)Ah 05 b coefficient of friction(wood and felt on plastic track)
Ah 05 b coefficient of friction(wood and felt on plastic track)AASTHA76
 
Fluid Mechanics Course - Civil Engineering -Lec 04
Fluid Mechanics Course - Civil Engineering -Lec 04Fluid Mechanics Course - Civil Engineering -Lec 04
Fluid Mechanics Course - Civil Engineering -Lec 04Ahmed Saleh, Ph.D
 
Lecture 1 Single Mode Loading Part A.doc
Lecture 1 Single Mode Loading Part A.docLecture 1 Single Mode Loading Part A.doc
Lecture 1 Single Mode Loading Part A.docDylanONeill11
 
Structural Analysis- Beam.pdf
Structural Analysis- Beam.pdfStructural Analysis- Beam.pdf
Structural Analysis- Beam.pdfCtKamariahMdSaat
 
Direct and Bending stresses
Direct and Bending stressesDirect and Bending stresses
Direct and Bending stressesVignesh Sekar
 
4.Friction (Biomedical Physics).pdf
4.Friction (Biomedical Physics).pdf4.Friction (Biomedical Physics).pdf
4.Friction (Biomedical Physics).pdfDR NIYATI PATEL
 
Basic Civil Mechanical Engineering unit-1
Basic Civil Mechanical Engineering unit-1Basic Civil Mechanical Engineering unit-1
Basic Civil Mechanical Engineering unit-1MOKSHIT TECH
 

Similaire à 6 friction fe (20)

ENG MECHANICS _FRICITION.pptx
ENG MECHANICS _FRICITION.pptxENG MECHANICS _FRICITION.pptx
ENG MECHANICS _FRICITION.pptx
 
Engineering Mechanice Lecture 07
Engineering Mechanice Lecture 07Engineering Mechanice Lecture 07
Engineering Mechanice Lecture 07
 
5. friction
5. friction5. friction
5. friction
 
Friction1
Friction1Friction1
Friction1
 
221_Friction_Proc_Fall_2010.pdf
221_Friction_Proc_Fall_2010.pdf221_Friction_Proc_Fall_2010.pdf
221_Friction_Proc_Fall_2010.pdf
 
Unit 3 mm9400 ver1.1(2014)
Unit 3 mm9400 ver1.1(2014)Unit 3 mm9400 ver1.1(2014)
Unit 3 mm9400 ver1.1(2014)
 
beamanalysis.ppt
beamanalysis.pptbeamanalysis.ppt
beamanalysis.ppt
 
Unit 6- Plate Bending Theory.pdf
Unit 6- Plate Bending Theory.pdfUnit 6- Plate Bending Theory.pdf
Unit 6- Plate Bending Theory.pdf
 
Ah 05 b coefficient of friction(wood and felt on plastic track)
Ah 05 b coefficient of friction(wood and felt on plastic track)Ah 05 b coefficient of friction(wood and felt on plastic track)
Ah 05 b coefficient of friction(wood and felt on plastic track)
 
lec11skel.pptx
lec11skel.pptxlec11skel.pptx
lec11skel.pptx
 
Fluid Mechanics Course - Civil Engineering -Lec 04
Fluid Mechanics Course - Civil Engineering -Lec 04Fluid Mechanics Course - Civil Engineering -Lec 04
Fluid Mechanics Course - Civil Engineering -Lec 04
 
Lecture 1 Single Mode Loading Part A.doc
Lecture 1 Single Mode Loading Part A.docLecture 1 Single Mode Loading Part A.doc
Lecture 1 Single Mode Loading Part A.doc
 
stress strain sm
stress strain smstress strain sm
stress strain sm
 
Structural Analysis- Beam.pdf
Structural Analysis- Beam.pdfStructural Analysis- Beam.pdf
Structural Analysis- Beam.pdf
 
Friction.ppt
Friction.pptFriction.ppt
Friction.ppt
 
Direct and Bending stresses
Direct and Bending stressesDirect and Bending stresses
Direct and Bending stresses
 
Friction
FrictionFriction
Friction
 
static friction
static frictionstatic friction
static friction
 
4.Friction (Biomedical Physics).pdf
4.Friction (Biomedical Physics).pdf4.Friction (Biomedical Physics).pdf
4.Friction (Biomedical Physics).pdf
 
Basic Civil Mechanical Engineering unit-1
Basic Civil Mechanical Engineering unit-1Basic Civil Mechanical Engineering unit-1
Basic Civil Mechanical Engineering unit-1
 

Plus de ELIMENG

Get started with dropbox
Get started with dropboxGet started with dropbox
Get started with dropboxELIMENG
 
07 chap3
07 chap307 chap3
07 chap3ELIMENG
 
6 wordiness(1)
6 wordiness(1)6 wordiness(1)
6 wordiness(1)ELIMENG
 
6 wordiness
6 wordiness6 wordiness
6 wordinessELIMENG
 
06 9 1_balboa
06 9 1_balboa06 9 1_balboa
06 9 1_balboaELIMENG
 
05 chap 4 research methodology and design(1)
05 chap 4 research methodology and design(1)05 chap 4 research methodology and design(1)
05 chap 4 research methodology and design(1)ELIMENG
 
05 chap 4 research methodology and design
05 chap 4 research methodology and design05 chap 4 research methodology and design
05 chap 4 research methodology and designELIMENG
 
4.2.cappelli 06(3)
4.2.cappelli 06(3)4.2.cappelli 06(3)
4.2.cappelli 06(3)ELIMENG
 
4.2.cappelli 06(2)
4.2.cappelli 06(2)4.2.cappelli 06(2)
4.2.cappelli 06(2)ELIMENG
 
4.2.cappelli 06(1)
4.2.cappelli 06(1)4.2.cappelli 06(1)
4.2.cappelli 06(1)ELIMENG
 
4.2.cappelli 06
4.2.cappelli 064.2.cappelli 06
4.2.cappelli 06ELIMENG
 

Plus de ELIMENG (20)

Get started with dropbox
Get started with dropboxGet started with dropbox
Get started with dropbox
 
8
88
8
 
07 chap3
07 chap307 chap3
07 chap3
 
7 4
7 47 4
7 4
 
6 wordiness(1)
6 wordiness(1)6 wordiness(1)
6 wordiness(1)
 
6 wordiness
6 wordiness6 wordiness
6 wordiness
 
06 3
06 306 3
06 3
 
06 9 1_balboa
06 9 1_balboa06 9 1_balboa
06 9 1_balboa
 
05 chap 4 research methodology and design(1)
05 chap 4 research methodology and design(1)05 chap 4 research methodology and design(1)
05 chap 4 research methodology and design(1)
 
05 chap 4 research methodology and design
05 chap 4 research methodology and design05 chap 4 research methodology and design
05 chap 4 research methodology and design
 
5 6
5 65 6
5 6
 
5
55
5
 
04 99
04 9904 99
04 99
 
4 2(1)
4 2(1)4 2(1)
4 2(1)
 
4 2
4 24 2
4 2
 
04
0404
04
 
4.2.cappelli 06(3)
4.2.cappelli 06(3)4.2.cappelli 06(3)
4.2.cappelli 06(3)
 
4.2.cappelli 06(2)
4.2.cappelli 06(2)4.2.cappelli 06(2)
4.2.cappelli 06(2)
 
4.2.cappelli 06(1)
4.2.cappelli 06(1)4.2.cappelli 06(1)
4.2.cappelli 06(1)
 
4.2.cappelli 06
4.2.cappelli 064.2.cappelli 06
4.2.cappelli 06
 

6 friction fe

  • 1. Engineering Mechanics: Statics The Laws of Dry Friction. Coefficients of Friction • Block of weight W placed on horizontal surface. Forces acting on block are its weight and reaction of surface N. • Small horizontal force P applied to block. For block to remain stationary, in equilibrium, a horizontal component F of the surface reaction is required. F is a static-friction force. . 8 - 1 is required. F is a static-friction force. • As P increases, the static-friction force F increases as well until it reaches a maximum value Fm. NF sm µ= • Further increase in P causes the block to begin to move as F drops to a smaller kinetic-friction force Fk. NF kk µ=
  • 2. Engineering Mechanics: Statics The Laws of Dry Friction. Coefficients of Friction • Four situations can occur when a rigid body is in contact with a horizontal surface: . 8 - 2 • No friction, (Px = 0) • No motion, (Px < Fm) • Motion impending, (Px = Fm) • Motion, (Px > Fm)
  • 3. Engineering Mechanics: Statics Angles of Friction • It is sometimes convenient to replace normal force N and friction force F by their resultant R: . 8 - 3 • No friction • Motion impending• No motion ss sm s N N N F µφ µ φ = == tan tan • Motion kk kk k N N N F µφ µ φ = == tan tan
  • 4. Engineering Mechanics: Statics Angles of Friction • Consider block of weight W resting on board with variable inclination angle θ. . 8 - 4 • No friction • No motion • Motion impending • Motion
  • 5. Engineering Mechanics: Statics Problems Involving Dry Friction . 8 - 5 • All applied forces known • Coefficient of static friction is known • Determine whether body will remain at rest or slide • All applied forces known • Motion is impending • Determine value of coefficient of static friction. • Coefficient of static friction is known • Motion is impending • Determine magnitude or direction of one of the applied forces
  • 6. Engineering Mechanics: Statics Sample Problem SOLUTION: • Determine values of friction force and normal reaction force from plane required to maintain equilibrium. • Calculate maximum friction force and compare with friction force required for equilibrium. If it is greater, block will not slide. . 8 - 6 A 100 lb force acts as shown on a 300 lb block placed on an inclined plane. The coefficients of friction between the block and plane are µs = 0.25 and µk = 0.20. Determine whether the block is in equilibrium and find the value of the friction force. greater, block will not slide. • If maximum friction force is less than friction force required for equilibrium, block will slide. Calculate kinetic-friction force.
  • 7. Engineering Mechanics: Statics Sample Problem SOLUTION: • Determine values of friction force and normal reaction force from plane required to maintain equilibrium. :0=∑ xF ( ) 0lb300-lb100 5 3 =− F lb80−=F :0=∑F ( ) 0lb300- 4 =N . 8 - 7 :0=∑ yF ( ) 0lb300- 5 4 =N lb240=N • Calculate maximum friction force and compare with friction force required for equilibrium. If it is greater, block will not slide. ( ) lb48lb24025.0 === msm FNF µ The block will slide down the plane.
  • 8. Engineering Mechanics: Statics Sample Problem • If maximum friction force is less than friction force required for equilibrium, block will slide. Calculate kinetic-friction force. ( )lb24020.0= == NFF kkactual µ lb48=actualF . 8 - 8