forging new generations of engineers. moments a lesson on understanding and evaluating moments of...
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Forging new generations of engineers
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Moments
A lesson on understanding and evaluating
moments of forces
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In This Lesson
• What is a moment?• How are moments calculated?• How are moments evaluated in dynamics
problems?• How are moments evaluated in static
equilibrium problems?• How do moments affect unconstrained
objects?
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What Is a Moment?
The moment or torque of a force is a measure of the tendency of the force to rotate the body upon which it acts about an axis.
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Terminology
= F
pivot distance
= D
lever arm
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Formula for Moment
= F
pivot
MomentMM = F x D
distance= D
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Units for Moments
Force Distance Moment
English
CustomaryPound (lb) Foot (ft) lb-ft
SI Newton (N) Meter (m) N-m
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The Right Hand Rule
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Right Hand Rule
THUMB
POINTS
TOWARD
YOUPOSITIVE
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Right Hand RuleTHUMB POINTS AWAY FROM YOU
NEGATIVE
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Moment Calculations
WrenchF = 20 lb
D = 9 in.
M = -(F x D)
***Use the right hand rule to determine positive and negative.
D = 9 in. = .75 ft
M = -(20 lb x .75 ft)
M = -15 lb-ft
(15 lb-ft clockwise)
¯
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Moment Calculations
Longer WrenchF = 20 lb
D = 1 ft
M = -(F x D)
M = -(20 lb x 1 ft)
M = -20 lb-ft
¯
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Moment Calculations
L-shaped Wrench
F = 20 lb
D = 3 in. = .25 ft
M = -(F x D)
M = -(20 lb x .25 ft)
M = -5 lb-ft¯
3 in
.
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Moment Calculations
Offset WrenchF = 20 lb
D = 8 in. + 10 in. = 1.5 ft
M = -(F x D)
M = -(20 lb x 1.5 ft)
M = -30 lb-ft¯
8 in.
8 in
.
10 in.
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D = r = 50 cm = .5 m
M = F x D
***Use the right hand rule to determine positive and negative.
M = 100 N x .5 m
M = 50 N-m
Moment Calculations
Wheel and Axle
F = 100 N
r = 50 cm
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50o
50o
Fy = Fsin50° = (100 N)(.766)
Fy = 76.6 N
D = r = 50 cm = .5 m
M = Fy x D
M = 76.6 N x .5 m
M = 38.3 N-m
Moment Calculations
Wheel and Axle
F = 100 N
r = 50 cm
Fy
Fx
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What Is Equilibrium?
The state of a body or physical system at rest or in unaccelerated motion in which the resultant of all forces acting on it is zero. The sum of all moments about any point or axis is zero.
ΣM = 0
M1 + M2 + M3 . . . = 0
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Moment Calculations
See-Saw
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ΣM = 0
M1 + (–M2) = 0
***Use the right hand rule to determine positive and negative.
M1 = M2
F1 x D1 = F2 x D2
25 lb x 4 ft = 40 lb x D2
100 lb-ft = 40 lb x D2
Moment Calculations
See-Saw
F1 = 25 lb
F2 = 40 lb
D1 = 4 ft D2 = ? ft
40 lb 40 lb
2.5 ft = D2
+̄
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ΣM = 0
MB + (–MC) = 0
MB = MC
RB x DAB = FC x DAC
RB x 10 ft = 35 lb x 3 ft
RB x 10 ft = 105 lb-ft
Moment Calculations
Loaded Beam
DAB = 10 ft
DAC= 3 ft
A
CB
RA
FC = 35 lbRB
10 ft 10 ft
RB = 10.5 lb
RA + RB = 35 lb
RA = 35 lb – 10.5 lb = 24.5 lb
Select the pivot location A. Solve for RB.
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A
B
CD
Fc = 600 lb
Moment Calculations
Truss
24 ft 8 ft
12 f
t
FB = 500 lb
Replace the pinned and rolling supports with reaction forces.
RAY
RAX
RDY
DAC = 24 ft
DCD = 8 ft
DCB = 12 ft
DAD = 32 ft
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A
B
CD
Fc = 600 lb
Moment Calculations
Truss
DAC = 24 ft
DCD = 8 ft
DCB = 12 ft
DAD = 32 ft
24 ft 8 ft
12 f
t
FB = 500 lb
RAY
RAX
RDY
Select the pivot at A. Solve for RDY.
12 f
t
ΣM = 0
MD – MB – MC = 0
MD = MB + MC
RDY x DAD = (FB x DCB) + (FC x DAC)
RDY x 32 ft = (500 lb x 12 ft) + (600 lb x 24 ft)
RDY x 32 ft = 6000 lb-ft + 14400 lb-ft
RDY x 32 ft = 20400 lb-ft 32 ft 32 ft
RDY = 637.5 lb
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Moments on An Airplane
AILERON Roll
AILERON Roll
ELEVATORS Pitch
RUDDER Yaw
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PATH WITH MOMENTS
Translation and Rotation
PATH WITHOUT MOMENTS
Pure Translation
Moments on an Airplane
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References
Halpern, A.M. (1988). Schaum’s 3000 solved problems in physics. New York, NY: McGraw-Hill.
NASA. (n.d.). The beginners' guide to aeronautics. Retrieved
June 11, 2008, from http://www.grc.nasa.gov/WWW/K-12/airplane/
Nave, C.R. (2005). HyperPhysics. Retrieved June 12, 2008,
from http://hyperphysics.phy-astr.gsu.edu/hbase/hph.html
National Institute of Standards and Technology. (2000). The NIST reference on constants, units and uncertainty. Retrieved June 11, 2008, from http://physics.nist.gov/cuu/Units/
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Writer: Wendy DeMane
Content Editor: Wes Terrell
Production Work: CJ Amarosa
Credits