Friction Problems – Solution Strategy Ambar K....
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Friction Problems – Solution Strategy
Ambar K. Mitra
This document contains screen-shots from the Statics-Power software.
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General Principles (problems on a plane)
1. Draw free-body-diagrams for all bodies in the problem
2. Write equilibrium equations for bodies. a. 2 force balance equations for slip
b. 2 force balance equations and 1 moment balance equation for bodies that can tip or roll.
3. Write additional equations connecting the forces that act on the bodies from rods, cables, etc. These equations arise from:
a. Principle of constant tension along a continuous cable. b. Equilibrium of frictionless pulleys.
c. Newton’s third law. 4. Count the number of unknowns (K) in the problem.
5. Count the number of equations available (N) from steps 2 and 3. 6. Determine the difference M=K-N. If M was negative, the modeling of the
problem was incorrect. If M was positive, we are M equations short.
7. Write the friction force inequalities for all rough contacts. Say, there is J number of inequalities.
8. Change M number of inequalities into equalities. 9. Solve for the unknowns.
10. Check the validity of the remaining J-M number of inequalities. 11. Accept solution if all the inequalities were satisfied in step-10. Else, discard
the solution. 12. Go to step-8 and choose a different set of inequalities and change these into
equalities.
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Problem-1
A 50lb block of uniform density is on an incline. The coefficient of static friction
between the block and incline is 0.3. Determine the maximum value of P for which the body remains in equilibrium. Is the impending motion by tipping or slipping up
the incline?
Tipping:
Figure-1a
� How many bodies? 1 (body A)
� How many rough surfaces? 1 o Between A and floor, µ known
Figure-1b
� Weight of A: known � How many unknown forces? 1
o P(A1) = force P � Motion: tip/roll (force and moment balance)
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Figure-1c
� Additional equation for P(A1): 0
Figure-1d
� Equilibrium equations for A: 3
0601660144050240503
04050601
04050601
====××××−−−−××××−−−−××××++++××××
====−−−−−−−−
====−−−−++++
sin)A(Pcos)A(Psincos
sin)AFloor(Fcos)A(P
cos)AFloor(Nsin)A(P
� Additional equations: 0
� Friction inequalities changed to equalities: 0 out of 1
Find unknowns: N(AFloor), F(AFloor), P(A1) (Three equations and three unknowns)
Check inequality:
)AFloor(N.)AFloor(F 30≤≤≤≤
Discard solution if inequality was violated.
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Slipping:
Figure-1e
� How many bodies? 1 (body A) � How many rough surfaces? 1
o Between A and floor, µ known
Figure-1f
� Weight of A: known � How many unknown forces? 1
o P(A1) = force P � Motion: slip (force balance)
Figure-1g
� Additional equation for P(A1): 0
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Figure-1h
� Equilibrium equations for A: 2
04050601
04050601
====−−−−−−−−
====−−−−++++
sin)AFloor(Fcos)A(P
cos)AFloor(Nsin)A(P
� Friction inequalities changed to equalities: 1 out of 1
)AFloor(N.)AFloor(F 30====
Find unknowns: N(AFloor), F(AFloor), P(A1) (Three equations and three unknowns)
Tip or Slip
Compare P(A1) values for tip and slip solutions; pick the smaller of the two
solutions.
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Problem-2
Blocks A and B weigh 20lb and 50lb, respectively. The blocks are connected by a
continuous cable that passes over a frictionless pulley. The coefficient of static friction between the blocks is 0.2.The motion of the blocks is impending. What is
the friction coefficient between block B and floor and what is the tension in the
cable?
Figure-2a
� How many bodies? 2 (bodies A and B) � How many rough surfaces? 2
o Between A and B, µ known
o Between B and floor, µ unknown
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Figure-2b
� Body A o Weight of A: known
o How many unknown forces? 1 � P(A1) = force from cable
o Motion: slip (force balance) � Body B
o Weight of B: known o How many unknown forces? 1
� P(B1) = force from cable o Motion: slip (force balance)
Figure-2c
� Additional equation connecting P(A1) and P(B1): 1
o Continuous cable
)B(P)A(P 11 ====
Figure-2d
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� Equilibrium equations for A: 2
025201
02520
====−−−−++++
====−−−−
sin)AB(F)A(P
cos)AB(N
� Equilibrium equations for B: 2
025501
02550
====−−−−−−−−++++
====−−−−−−−−
sin)AB(F)BFloor(F)B(P
cos)AB(N)BFloor(N
� Friction inequalities changed to equalities: 2 out of 2
)BFloor(N)BFloor()BFloor(F
)AB(N.)AB(F
µµµµ====
==== 20
Find unknowns: N(AB), F(AB), N(BFloor), F(BFloor), µ(BFloor), P(A1), P(B1).\
(Seven equations and seven unknowns)
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Problem-3
Block A weighs 20lb and block B weighs 50lb. The coefficient of static friction at all
surfaces is 0.3. Find the force Q and the tension in the rod when motion of block B is impending.
Figure-3a
� How many bodies? 2 (bodies A and B)
� How many rough surfaces? 2 o Between A and B, µ known
o Between B and floor, µ known
Figure-3b
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� Body A
o Weight of A: known o How many unknown forces? 1
� P(A1) = force from bar o Motion: slip (force balance)
� Body B o Weight of B: known
o How many unknown forces? 1 � P(B1) = force Q
o Motion: slip (force balance)
Figure-3c
� Additional equation connecting P(A1) and P(B1): 0
Figure-3d
� Equilibrium equations for A: 2
0301
020301
====−−−−
====−−−−++++
cos)A(P)AB(F
sin)A(P)AB(N
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� Equilibrium equations for B: 2
01
050
====−−−−−−−−
====−−−−−−−−
)AB(F)BFloor(F)B(P
)AB(N)BFloor(N
� Friction inequalities changed to equalities: 2 out of 2
)BFloor(N.)BFloor(F
)AB(N.)AB(F
30
30
====
====
Find unknowns: N(AB), F(AB), N(BFloor), F(BFloor), P(A1), P(B1). (Six equations and six unknowns)
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Problem-4
The coefficient of friction between the 50lb block A and the floor is 0.3. Find force
Q for impending motion.
Figure-4a
� How many bodies? 2
o Block A o Pin f
� How many rough surfaces? 1 o Between A and floor, µ known
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Figure-4b
� Body A
o Weight of A: known o How many unknown forces? 1
� P(A1) = force from bar, F(ef) o Motion: slip (force balance)
� Body B
o Weight of B: known (weight of pin = 0) o How many unknown forces? 3
� P(B1) = force from bar, F(fe) � P(B2) = force from bar, F(fg)
� P(B3) = force Q o Motion: slip (force balance)
Figure-4c
� Additional equation connecting P(A1) and P(B1): 1
o Newton’s 3rd Law
)B(P)A(P 11 ====
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Figure-4d
� Equilibrium equations for A: 2
0251
050251
====−−−−
====−−−−++++
cos)A(P)AFloor(F
sin)A(P)AFloor(N
� Equilibrium equations for B: 2
0403802251
0403802251
====++++++++−−−−
====++++−−−−
sin)B(Psin)B(Psin)B(P
cos)B(Pcos)B(Pcos)B(P
� Friction inequalities changed to equalities: 1 out of 1
)AFloor(N.)AFloor(F 30====
Find unknowns: N(AFloor), F(AFloor), P(A1), P(B1), P(B2), P(B3). (Six equations and six unknowns)
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Problem-5
Figure-5
The cylinders A and B weigh 50lb and 80lb, respectively. The coefficient of friction at the contact between A and B is 0.4. The coefficient of friction is 0.2 at all other
contacts. Determine the force P for impending motion.
Figure-5a
� How many bodies? 2 (bodies A and B) � How many rough surfaces? 3
o Between A and B, µ known
o Between A and floor, µ known
o Between B and floor, µ known
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Figure-5b
� Body A o Weight of A: known
o How many unknown forces? 1 � P(A1) = applied force P
o Motion: tip/roll (force and moment balance) � Body B
o Weight of B: known
o How many unknown forces? 0 o Motion: tip/roll (force and moment balance)
Figure-5c
� Additional equation for P(A1): 0
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Figure-5d
� Equilibrium equations for A: 3
0
02050501
02050501
====−−−−
====−−−−−−−−++++
====−−−−−−−−++++
)AB(F)AFloor(F
sin)AB(N)AFloor(Fcos)A(P
cos)AB(Fsin)A(P)AFloor(N
� Equilibrium equations for B: 3
0
02080
02080
====−−−−
====−−−−++++
====−−−−++++
)BFloor(F)AB(F
sin)BFloor(F)AB(N
cos)AB(F)BFloor(N
� Friction inequalities changed to equalities: 1 out of 3
o Assumption-1
)AB(N.)AB(F 40====
Find unknowns: N(AB), F(AB), N(Floor), F(AFloor), N(BFloor), F(BFloor),
P(A1). (Seven equations and seven unknowns)
Verify inequalities
)BFloor(N.)BFloor(F
)AFloor(N.)AFloor(F
20
20
≤≤≤≤
≤≤≤≤
Discard solution if inequalities were violated.
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o Assumption-2
)AFloor(N.)AFloor(F 20====
Find unknowns: N(AB), F(AB), N(AFloor), F(AFloor), N(BFloor), F(BFloor),
P(A1). (Seven equations and seven unknowns)
Verify inequalities
)BFloor(N.)BFloor(F
)AB(N.)AB(F
20
40
≤≤≤≤
≤≤≤≤
Discard solution if inequalities were violated.
o Assumption-3
)BFloor(N.)BFloor(F 20====
Find unknowns: N(AB), F(AB), N(AFloor), F(AFloor), N(BFloor), F(BFloor),
P(A1). (Seven equations and seven unknowns)
Verify inequalities
)AB(N.)ABFloor(F
)AFloor(N.)AFloor(F
40
20
≤≤≤≤
≤≤≤≤
Discard solution if inequalities were violated.
� Among the valid solutions pick the one with smallest P(A1).
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Problem-6
Figure-6
The blocks A, B, and C weigh 50lb, 40lb, and 60lb, respectively. Determine P for
impending motion. Friction coefficient at all surfaces is 0.2.
Figure-6a
� How many bodies? 3 (bodies A, B, and C)
� How many rough surfaces? 3 o Between A and B, µ known
o Between A and floor, µ known
o Between C and floor, µ known
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Figure-6b
� Body A
o Weight of A: known o How many unknown forces? 2
� P(A1) = applied force P � P(A2) = force from cable
o Motion: slip (force balance)
� Body B o Weight of B: known
o How many unknown forces? 1 � P(B1) = force from cable
o Motion: slip (force balance) � Body C
o Weight of C: known o How many unknown forces? 1
� P(C1) = force from cable o Motion: slip (force balance)
Figure-5c
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� Additional equations connecting P(A1), P(A2), P(B1), and P(C1): 2
o Continuous cable condition
)B(P)A(P 12 ====
o Equilibrium of pulley
)A(P)B(P)C(P 211 ++++====
Figure-5d
� Equilibrium equations for A: 2
050
021
====−−−−−−−−
====−−−−−−−−−−−−
)AB(N)AFloor(N
)AFloor(F)AB(F)A(P)A(P
� Equilibrium equations for B: 2
01
040
====−−−−
====−−−−
)B(P)AB(F
)AB(N
� Equilibrium equations for C: 2
01
060
====−−−−
====−−−−
)CFloor(F)C(P
)CFloor(N
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� Friction inequalities changed to equalities: 2 out of 3
o Assumption-1
)CFloor(N.)CFloor(F
)AFloor(N.)AFloor(F
20
20
====
====
Find unknowns: N(AB), F(AB), N(AFloor), F(AFloor), N(CFloor), F(CFloor), P(A1), P(A2), P(B1), P(C1).
(Ten equations and ten unknowns)
Verify inequality
)AB(N.)AB(F 20≤≤≤≤
Discard solution if inequality was violated.
o Assumption-2
)AB(N.)AB(F
)AFloor(N.)AFloor(F
20
20
====
====
Find unknowns: N(AB), F(AB), N(AFloor), F(AFloor), N(CFloor), F(CFloor), P(A1), P(A2), P(B1), P(C1).
(Ten equations and ten unknowns)
Verify inequality
)CFloor(N.)CFloor(F 20≤≤≤≤
Discard solution if inequality was violated.
o Assumption-3
)AB(N.)AB(F
)CFloor(N.)CFloor(F
20
20
====
====
Find unknowns: N(AB), F(AB), N(AFloor), F(AFloor), N(CFloor), F(CFloor),
P(A1), P(A2), P(B1), P(C1). (Ten equations and ten unknowns)
Verify inequality
)AFloor(N.)AFloor(F 20≤≤≤≤
Discard solution if inequality was violated.
� Among the valid solutions pick the one with smallest P(A1).
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Problem-7
Figure-7
The blocks A, B, and C weigh 50lb, 40lb, and 60lb, respectively. Determine P for
impending motion. Friction coefficient at all surfaces is 0.75.
Figure-6a
� How many bodies? 3 (bodies are A, B, and C)
� How many rough surfaces? 3 o Between A and floor, µ known
o Between A and B, µ known
o Between B and C, µ known
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Figure-6b
� Body A o Weight of A: known
o How many unknown forces? 0 o Motion: slip (force balance)
� Body B o Weight of B: known
o How many unknown forces? 1 � P(B1) = force P
o Motion: slip (force balance) � Body C
o Weight of C: known o How many unknown forces? 1
� P(C1) = force from cable o Motion: slip (force balance)
Figure-5c
� Additional equations connecting P(B1) and P(C1): 0
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Figure-5d
� Equilibrium equations for A: 2
03350
03350
====−−−−−−−−
====−−−−−−−−
sin)AFloor(F)AB(F
cos)AB(N)AFloor(N
� Equilibrium equations for B: 2
033401
03340
====−−−−−−−−−−−−
====−−−−−−−−
sin)BC(F)AB(F)B(P
cos)BC(N)AB(N
� Equilibrium equations for C: 2
033601
03360
====−−−−−−−−
====−−−−
sin)C(P)BC(F
cos)BC(N
� Friction inequalities changed to equalities: 2 out of 3
o Assumption-1
)AB(N.)AB(F
)AFloor(N.)AFloor(F
750
750
====
====
Find unknowns: N(AFloor), F(AFloor), N(AB), F(AB), N(BC), F(BC), P(B1),
P(C1). (Eight equations and eight unknowns)
Verify inequality
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)BC(N.)BC(F 750≤≤≤≤
Discard solution if inequality was violated.
o Assumption-2
)BC(N.)BC(F
)AFloor(N.)AFloor(F
750
750
====
====
Find unknowns: N(AFloor), F(AFloor), N(AB), F(AB), N(BC), F(BC), P(B1),
P(C1). (Eight equations and eight unknowns)
Verify inequality
)AB(N.)AB(F 750≤≤≤≤
Discard solution if inequality was violated.
o Assumption-3
)AB(N.)AB(F
)BC(N.)BC(F
750
750
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Find unknowns: N(AFloor), F(AFloor), N(AB), F(AB), N(BC), F(BC), P(B1),
P(C1). (Eight equations and eight unknowns)
Verify inequality
)AFloor(N.)AFloor(F 750≤≤≤≤
Discard solution if inequality was violated.
� Among the valid solutions pick the one with smallest P(A1).