dynamics
TRANSCRIPT
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10 February 2005 Dear Recipient, You are privileged to obtain a partial collection of answers for MEG 207 Dynamics. This document was compiled from PDF files collected during Fall of 2002 and Spring 2003. I have complied them into one document with Bookmarks to aid you in quickly finding the solutions you need. Unfortunately this isn’t a complete compilation of all of the answers, but comprehensive enough to help complement your studies. Engineering Mechanics, Dynamics, Second Edition. ISBN: 0-471-05339-2
Happy Studies!
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Chapter 13
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Chapter 14
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Chapter 15
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Chapter 16
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Chapter 17
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Old Exams
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1
Name:___________________ Last First
UNLV, DEPARTMENT OF MECHANICAL ENGINEERING
MEG 207, SPRING 2002, FIRST TEST Closed Book, one page of handwritten notes allowed. Enter the answer for each question into the space provided. Enter SI units in all answer spaces with brackets ( ). 1. (15 points) A vehicle traveling at 108 km/h suddenly decelerates at a rate of 3 m/s2. a) Determine the time needed for the vehicle to come to rest. b) Determine the distance traveled between the beginning of braking, and the full stop.
Answers: a) Tstop = 10 ( s units)
b) dStop = 150 ( m units) 2. (20 points) A ball of mass m is thrown horizontally from a bridge 30 m above ground. It touches ground at distance d = 15 m. Determine the ball's initial velocity. No friction.
Answer v0 = 6.065 ( m/s )
A (x0,y0)
B
v0 g
horiz. distance d = 15 m
h = 30 m
x
y
1(a) v0 1081000
3600⋅:= in m/s a 3−:=
v t( ) v0 a t⋅+ General equation. Solving for t when v=0
gives: tv0
a−:= and t 10=
1 (b) v*dv = a*dx or a distance⋅1
20 v0−( )
2⋅distance
v02−
2 a⋅:= distance 150=
Problem 2 d 15:= h 30:= Angle is zero.Horizontal: d = v0*t. Vertical: y(t) = y0 -1/2*g*t^2. At point B, y = 0.
g 9.81:=
Givend v0 t⋅
0 h 0.5 g⋅ t2⋅−
res Find t v0,( ):= res2.473
6.065
=
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2
3. (20 points) Pin P moves at constant speed of 3 m/s in a counterclockwise sense around the circular slot with radius r = 2 m. Determine (a) the angular velocity of P. (b) the total acceleration vector ( Use polar coordinates: er and eθ directions) of pin P when θ = 30 degrees. (c) the magnitude and angle of the resultant acceleration vector in Cartesian x-y coordinates. (b) no radial or angular accel. In neg. er direction we have r*ω2 = - 2*2.25 m/s2 (c) Resultant Acceleration is purely inward, thus: ax = -4.5*cos 30o and ay = -4.5*sin 30o
Answer
ω = v/r = 3/2 = 1.5 ( rad/s )
aP = -4.5 er 0 eθ (m/s2)
aP = 4.5 m/s2 at -150 degrees (magnitude and angle in x-y coordinates)
4. (25 points) Wind-driven rain is falling with a speed of 30 m/s at an angle of 200 to the vertical as shown at left. Determine the angle ψ at which the rain is seen by passengers inside the bus. The bus is traveling at 72 km/h. Vrain = VBus + VRain/bus Vbus = 20m/s x-and y-components of VRain/bus:
v R/B,x = -Vbu ---VR*sin(20deg) = -30.2 m/s v R/B,y =---VR*cos(20deg) = -28.19 m/s VRain/bus = tan-1 (29.19/30.2) = 43 deg.
Angle ψ seen by moving passengers = 43 deg. ( )
θθθθ
R = 2m
P
x
y
v = 72 km/h
yy
20 0
Rai
n
ψψψψ
4.5
ψ
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3
5. (20 points) In the pulley system shown at left, the cable is attached at C. Mass B
moves to the left at vB = 3 m/s, and accelerates also to the left at aB = 0.5 m/s2. Using the x-y frame with origin at C, determine: (a) the velocity of A (b) the acceleration of A L = 2xB(t) +(Y0 --- yA(t))
Differentiation gives: 2 vB = vA and 2 aB = aA Answer
vA = 6 m/s ( )
aA = 1 m/s2
( )
A
B xy
C
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Name:___________________Last First
UNLV, DEPARTMENT OF MECHANICAL ENGINEERINGMEG 207, Spring 2002, Third Test
Closed Book, one page of handwritten notes allowed. Enter the answer for each questioninto the space provided. Enter SI units in all answer spaces with brackets ( ).
1. (25 points) The thin, uniform rod (Length L, mass m, Inertia: IG = mL2/12.) rotatesabout fixed point A as it is released from rest in the horizontal position shown. At theinstant immediately following the release, determine
(a) the angular acceleration of the rod.(b) the acceleration, aB, of the point B.
Sum of moments about A:
mg*L/2 = IA*α
IA = IG +m*(L/2)2
= (1/12+1/4)*mL2
==mL
2/3
Inserting into the first equationgives:
mg*L/2 = mL2/3 *α
after simplification and regrouping we get:
αRod = 3g/(2L)
Part (b):
A is center of rotation. Thus aB = L*α = 3g/2
Answers: a) αRod = 3g/(2L)
b) aB = - 3g/2 in ---j-direction
i
J
Unit vectors
B
L
g
A
m
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2. (30 points) A uniform plate of steel of length L = 1 m and mass m = 200 kg is placedonto a truck bed as shown. The plate cannot slide at point A, but can rotate about A.Determine the maximum allowable acceleration of the truck so that the plate does not
rotate.Bx At max. accel, contact force Bx = 0.
From free-body diagram:
Ax = m*ax
Ay = m*g
Ax*L/2*sin(α) --- Ay*L/2*cos(α) = Ig*α = 0
Inserting the top two equations into the third :
Ax Ay
m*ax = m*g* cos(α)/sin(α)
amax = g* cot(α) = 5.664 m/s2
Answer aTruck,max = 5.664 ( m/s2
Units)
3. (20 points) The spring (k = 1200 N/m) is initiallycompressed by 2 m. The 3-kg block shown is notattached to the spring. After release from rest, theblock travels along the rough surface (µk = 0.2).Determine the position xfinal at which the block comesto rest.
Forces doing work:
Spring: Fsrping dsFriction Ffrict ds
T1 + U1-2 = T2 with T1 = T2 = 0. Thus U1-2 = ½*k*(2meters)2
---µk*m*g*x = 0
x = 2*1200/(0.2*3kg&9.81m/s2) = 407.7 m
Answer xfinal = 407.7 ( m Units)
i
J
L
60 0
Truck
B
Aatruck
Mass = 3 kg
gk = 1.2 kN/m
2 meters
Spring is compressedat time of release
µk = 0.2
x
Uncompressedspring position
mg
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4. (25 Points) A parcel of mass m is released at an initial velocity v0 = as shown.(a) Determine the minimum velocity at B (immediately before reaching the upperconveyor) so that the parcel does not drop at B.(b) Determine the minimum velocity v0 at point A so that the parcel reaches point B atthe minimum velocity computed in part (a).Given: Radius r , mass m, g. No friction. Neglect the package thickness!(Use Energy method)
Answer (a)v
2/r
g
Part (b)
T1 + U1-2 = T2 with T1 = ½*m*v02
and T2 = ½*m*g*rOnly gravity does work: mg ds
Thus
½*m*v02
- 2r*m*g = ½*m*g*r
After simplification, we get:
v02
= 5gr
Answer: (a) vB,min = (gr)1/2
(b) v0,min = (5gr)1/2
v0
gr
CB
A
m
In order not to falloff at B, gravitymust be offset by thecentripetalacceleration:v
2/r = g
orv
2,min = g*r
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1
Name:_____KEY________Last First
UNIVERSITY OF NEVADA, LAS VEGASDEPARTMENT OF MECHANICAL ENGINEERING
MEG 207, Spring 2002, Final ExaminationClosed Book, two pages of handwritten notes allowed. Enter the answer for each question into the
space provided. Enter correct dimensional SI units where applicable.
1. (10 points) A point mass of 10 kg is tossed horizontally from 30 m above ground. Themass lands on the ground at a distance of 40 m from a point on the ground directly below
the tossing point. Determine the initial velocity of themass.
v0*t = x1 = 40 (1)y1 = 0 = y0 ---- ½*g*t
2(2)
from (1): t = sqrt(2/g* y0) = 2.47 s
inserting into (1) gives: v0 = 40/t = 16.17 m/s
Answer: v0 = 16.17 m/s
2. (15 points) A point mass m is suspended from two wires AB and CD. Determine thetension in the other wire CD (a) before AB is cut
(b) immediately after AB is cut.
(a) Law of sines: A/sin(40o) = mg/sin(120
o)
Thus: A = 0.742*mg(b) After AB is cut: Reaction B disappears. Using polar coordinates:Summing in radial dir: A-mg*cos(20
o) = m*r_ddot = 0, thus A = mg*cos(20
o) = 0.94*mg
(a) Tension in Cable CD before cut = 0.742*mg
(b) Tension in Cable CD after cut = 0.94*mg
mg
A
B A, eR
mg eθθθθ
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2
3. (20 points) A collar with mass 5 kg slides in the vertical plane along the curved rodshown. It is attached to an elastic spring with undeformed length of 150 mm, and k = 600
N/m. The collar is released from rest at A.Determine the collar's speed at B.
T1 + V1 = T2 + V2 T1 = 0
½ k(x-x0)2
+ mgh = ½ mv2
2+ ½ k(x2-x0)
2
0.1meters mg*0.2 0.05 meters
inserting the data and solving for v2 gives:
v2
2= k(0.12 ---- 0.052) + 2mg*0.2
v2
2= 0.9 + 3.924 = 4.824 m
2/s
2
vB = 2.196 ( m/s units)
4. (15 points) The 12-kg mass B is dropped with a horizontal velocity v0 = 2.5 m/s onto the30-kg luggage cart (µk = 0.5), which is initially at rest and can roll freely. Determine the
velocity of the luggage cart after mass B has reachedthe same velocity as the cart.
An approximate solution can be found using the energyprinciple. This neglects the energy loss due to frictionas the package slides on the cart.
T1 + V1 = T2 + V2 T1 = ½ mBv1
2
Use datum line at A. there is no change in potential: V1 = V2 = 0
So we get: T1 = ½ mBv1
2= ½ (mB +mcart)*v2
2
v2
2= (12*6.25)/42 = 1.78 m
2/s
2
Answer (a) v = 1.336 ( m/s units)
g
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3
5. (20 points) Center B of the double pulley has a velocity of 0.6 m/s, and an accelerationof 2.4 m/s
2, both directed downward. R= 2m, r = 0.8 m. Determine the total acceration
vector of point D.Point C is an instantaneous center.
ω = vB/r = -0.75 rad/s clockwiseα = aB/r = -3 rad/s
2clockwise
aD = (0 ---- 2.8* ω2)∗i + 2.8*α*j
aD = ---- 1.575∗i -8.4*j
aD = ---- 1.575∗i -8.4*j ( m/s units)
6. (20 points) The uniform rod AB with mass m and length L is relased from rest at anangle of Θ0 as shown. Assuming that no sliding occurs, determine (a) the angularacceleration of the rod just after release. (b) the normal reaction and friction force at pointA just after release.
Pure rotation about A.
Summing moments about A:
-1/2*L*sin(θ0)*mg = IB*α where IB = mL2/3
thus α = -3/2*g/L* sin(θ0)
(B) Reactions at A:Forces in x-dir: F = m*ax = m*1/2*L*cos(θ0)*α
Forces in y-dir: N ---- mg = -m*1/2*L*sin(θ0)*α
or N = mg[1- ¾* sin2(θ0) ]
ÿRod = α = -3/2*g/L* sin(θ0)
N = mg[1- ¾* sin2(θ0) ] F = ¾*mg* cos(θ0)* sin(θ0)
i
J
L
g
A
Bθθθθ0000
mg
½*L*α
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Note: Exam results are up significantly in comparison to exam 2.
Name:_____KEY________Last First
UNLV, DEPARTMENT OF MECHANICAL ENGINEERINGMEG 207, Spring 2003, Third Test
Closed Book, one page of handwritten notes allowed. Enter the answer for each question into the spaceprovided. Enter SI units inall answer spaces with brackets ( ).
1. (25 points)A disk(mass m= 2kg, r= 0.1mInertia: IG = mr2/2.) is rigidly attached to massless rod AB(Length R = 0.5m) and released from rest in the horizontal position. At the instant immediately followingthe release, determine
(a) the angular acceleration of the rod.(b) the acceleration, aB, of the point B.
ANSWER
Newton: Sum of moments about A: using L = R. mB = mass at B
mB*g*R= IA*α
IA = IG +mB*(R)2 = (0.01/2+0.25)* mB = 0.255*mB
Inserting into the first equation gives:
mBg*R = 0.255*mB *α
after simplification and regrouping we get:
αRod = R*g/(0.255) = 0.5*9.81/0.255 = 19.2 rad/s2
Part (b):
A is center of rotation. Thus aB = R*α = 0.5∗α = 9.62 m/s2
Answers: a)αRod = 19.2 rad/s2
b) aB = R*α = 0.5∗α = 9.62 m/s2
gA (fixed)
B
VB
r =0.
1m
R=0.5m
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2. (25 points)A uniform rectangular crate of height = 0.5 m, width 0.2m and mass m = 200 kg is placedonto a truck bed as shown. The crate cannot slide at point B, but can rotate about B. Determine themaximum allowable acceleration of the truck so that the crate does not rotate.
[
N = mg
Moments about G: 0.25*FB - 0.1*mcrate*g = 0 (1)
Forces on crate in x-direction: FB = mcrate*atruck (2)
Insert (2) into (1): 0.25* mcrate*atruck = 0.1*mcrate*g
atruck = g/2.5
Answer aTruck,max= 3.924 ( m/s2 Units)
FBi
J
Crateg
Batruck
0.2m
0.5m
N
mg
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3. (30 points)The spring (k = 1500 N/m) is initially uncompressed. The 3-kg block shown is released fromrest 4m above the spring and falls onto the spring.Using the energy method, determine
(a) the velocity at which the block hits the spring at y = 0 m.(b) the amount of maximum spring
compression, δ, caused by theimpacting block.
Answer
T2 – T1 = - INT( [-mg]*dy = ½*m*v 22
T1 = 0 v22 = 2gy =8g =78.48 m2/s2
(c) T3 – T2 = ½*k*δ2 + m*g*δ
(d) T3 = 0
T2 =½*m*v22 = ½*3*kg*78.48 m2/s2 = ½*1500* δ2 + m*g*δ
We now solve forδ
(substitute d = δ at right) T2 750 d2⋅ 3 9.81⋅ d⋅+
Answer vimpact (y=0) = 8.86 ( m/s Units)
δmax. compression= 0.377 ( m Units)
k = 1.5 kN/m
y
3kg
4m
g
δδδδSpring is initiallyuncompressed
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4. (20 Points)A point mass pendulum (mass m, Length L) is released from rest at an initial angleθ0 = 450
as shown.(a) Determine the maximum velocity of the pendulum(b) Determine the pendulum tension atθ = 0.Given: Length L , mass m, g. No friction. (Use Energy method)
(a)
T2 – T1 = ½*m*v22 = mgL(1- cos(θ0)
T1 = 0 (release from rest)
v22 = 2g L(1- cos(θ0)
(b) Max. tension Force exists at (2): Sum of forces in radial dir. (inward towards center B):
T –mg = m* v22/L
T = m(g+ v22/L)
Answer: (a) vmax = [ 2g L(1- cos(θ0)]1/2
(b) Max.Tension Force atθ = 0 = m(g+ v22/L)
m
gRope length L
Bfixed
θ0 = 450
θ = 0θ = 0θ = 0θ = 0
1
2
v2 = vmax
h = L(1- cos(θθθθ0)
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Name:________KEY ______Last First
UNIVERSITY OF NEVADA, LAS VEGASDEPARTMENT OF MECHANICAL ENGINEERING
MEG 207, SPRING 2003,Final ExaminationClosed Book, three pages of handwritten notes allowed. Enter the answer for each question into the space provided.
Enter correct dimensional SI units where applicable.
1. (15 points) A player throws a ball horizontally from point A at an elevation 2m above ground.The ball lands on the flat ground at point B, at a distance of 20 m from the origin.
Determine(a) the initial velocity at which the ball was thrown(b) the time elapsed between points A and B
B
g
horiz. distanced = 20 m
yo = 2 m
y
A (x 0,y0)vo
x
The only acceleration is g in –j-direction. vo = vo*i. After integrating twice in i-direction:xB = 20 = vo*t + 0 (xo = 0) (1)
After integrating in j-direction: yB = 0 = 0 – ½*g*t2 + 2 (yo = 2) (2)
From (2): t2 = 4/g ÿ inserting into (1) gives: vo = 20/t = 20*(g/4)1/2 = 31.3 m/s
Answer: vo = 31.3 m/s
t = 0.64 s
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2. (15 points)A constant force F = 50 N is applied to massm=10 kg, which is initially at rest with the attachedspring (k = 200 N/m) unstretched. Determine
(a) the maximum velocity of the mass.(b) the maximum stretch of the spring.
(a) T2 – T1 = F*x - ½*k* x2 = ½*m*v22
F x⋅1
2k⋅ x
2⋅−1
2m⋅ v x( )( )
2⋅The maximum velocity occurs
when the derivative of the velocity is zero:F k x⋅− m v x( )⋅
xv x( )d
d⋅
= 0, x = F/k = 50/200 = 0.25,
thus v2max = 1.25 (m/s)2
(b) Both start and final velocities must be zero: T2 – T1 = F*x - ½*k* x2 = 0
Two solutions: x1 = 0 (start point) x2 : 2F - k* x = 0
x2 = 2F/k = ½ meters
(a) vmax = 1.12 m/s(b) xmax = 0.5 m
3. (20 points) Knowing that vΑ= 5 m/s is constant to the left,determine for the instant shown :(a) the angular velocity of rod
BC(b) the angular acceleration of
rod AB.(a) Vector equation:VB = VA + VB/A
Thus: RB/C*ωBC*j = -v A*i + RB/A*ωAB*(-sin30oi + -cos30oj) Components:i: vA = RB/A*ωAB*sin30o ÿ ωωωωAB = vA /(RB/A*sin30o) = - 5/(10*0.5) = -1 rad/sj: RB/C*ωBC= RB/A*ωAB *cos30o ÿ ωωωωBC = -RB/A*ωAB cos30o/RB/C = +10*0.866/4 = 2.165 rad/s;
(b) aA = 0. only centripetal and angular accel terms exist. Vector eq. AB = AA + AB/A
-RB/C*ωBC2*i + RB/C*αBCj = RB/A*ωAB
2*(-sin30oj + cos30oi) + RB/A*αAB*(-sin30oi - cos30oj)j: RB/C*αBC = -RB/A*ωAB
2*sin30o- RB/A*αAB* cos30o
i: -RB/C*ωBC2 = RB/A*ωAB
2* cos30o - RB/A*αAB*sin30o
αAB = -(RB/C*ωBC
2 + RB/A*ωAB2* cos30o)/(RB/A*sin30o) = - (4*4.69 + 10*1*0.866)/5 = - 5.48 rad/s2
ωBC = 2.165 rad/s
αAB = - 5.48 rad/s2 cw
i
J
Unit vectors vA = 5 m/s
B10 m
4 m
30 o
A
CVB/A
Mass =10 kg
k = 200 N/m
Spring is unstretchedat time of release
no friction
F= 50 N
unstretchedspring position
x
g
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4. (15 points) The frictionless system of masses A (40 kg) and B (10 kg) is released from rest.Determine: (a) the acceleration of mass A.
(b) the tension in the cable
Mass A moves in i-direction, and B in j-directiononly.Mass A moves in I-direction, and B in j-direction only.Newton: A: xmTF Ax ÿÿ==ÿ Constraint eq.: x = -y
B: xmymgmTF BBBy ÿÿÿÿ −==−=ÿ *
Ba
B
mm
gmx
+=ÿÿ = 98.1/50 = 1.962 m/s2
(b) Using first eq.: T = 40kg*1.962 m/s2 = 78.5 N
(a) aA = 1.962 m/s2
(b) T = 78.5 N
5. (15 points)Gear D is stationary. Gear C has radius rC = 100 mm. Bar AB has a length of 200mm. As Bar AB rotates counterclockwise atωAB = 5 rad/s, determine
(a) The angular velocity of gear C(b) The total acceleration vector (in Cartesian i-j
coordinates) of point P on gear C. Point P islocated 100 mm below B, normal to the line AB.
i
J
Unit vectors(a) The Contact of gear D with gear B is an inst. Center. We have: vB = 200*ωΑB = 100*ωC
ωC = 2*5 = 10 rad/s(b) AP = AB + AP/B aP = - 200*52*i + 100*102*j
ωC = 10 rad/s
Vector aP = - 5 i + 10 j m/s2
Am = 40 kg
Bm = 10 kg
g
i
J
Unit vectors
P
Ctr
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6. (20 points)The uniform rod AB with mass m is released from rest at an angle of 60 degrees asshown. Assuming that no sliding occurs, determine (a) the angular acceleration of the rod just afterrelease. (b) the normal reaction and friction force at point B. Moment of Inertia for the rod, at centerof mass:IG = mL2/12.
We have a pure rotation aboutfixed point B.Parallel axis Theorem: IB = IG
+ m(L/2)2 =mL2(1/12+1/4) =mL2/3
Newton about B:
αα *3
*2
1*
22L
mImg
LM BB ==−=ÿ
α = -3g/(4L) (oriented in k-direction normal to the i-j plane)
(b) Reactions: Newton in x- and y- directions:
16/34
gL
y −=−= αÿÿ )0(433.0*866.0*2
>+=−= ctCrossprodugL
x αÿÿ
ymmgNFy ÿÿ=−=ÿ N = m(g – 3g/16) = 13mg/16
433.0*mgxmFFx ===ÿ ÿÿ
α
L/20.866*L
L/4
αRod= 3g/(4L)
Ν = 13mg/16 F = 0.433*mg
i
J
L
g
B
60 0
A
mg
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