205-wikarta-kuliah i mektek ti
TRANSCRIPT
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KULIAH I
MEKANIKA TEKNIK TIPENDAHULUAN
OLEH:ALIEF WIKARTA, ST
JURUSAN TEKNIK MESIN, FTI – ITSSURABAYA, 2007
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Mechanics
Rigid Bodies(Things that do not change shape)
Deformable Bodies(Things that do change shape)
Fluids
Statics Dynamics Incompressible Compressible
Apa itu Mekanika?
Cabang ilmu fisika yang berbicara tentang keadaan diam atau geraknya benda-benda yang mengalami kerja atau aksi gaya
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Buku apa yang dipakai?
• R. C. Hibbeler, Engineering Mechanics, 7th - 10th
Edition, Person Prentice-Hall
• F. P. Beer and E. R. Johnston Jr., Vector Mechanics for Engineers: Statics, SI Metric Edition, Mcgraw-hill, 3rd Edition
• R. C. Hibbeler, Mechanics of Material, 3th Edition, Person Prentice-Hall
• dll
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Bagaimana evaluasinya ?
• Tugas-Kuis : 25 %
• UTS : 30 %
• UAS : 45 %
Tidak mentolerir segala bentuk kecurangan
Tapi tetap boleh cross check
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Penjelasan TUGAS
• Dikerjakan pada kertas A4• Tulis nama dan NRP di sebelah kanan atas,
serta tanggal dan tugas ke berapa• Silahkan mengerjakan soal apa saja yang
berkaitan dengan materi yang disampaikan• Silahkan mengerjakan berapa pun soal yang
sanggup anda selesaikan• Soal-soal harus dari buku yang disepakati• Mencantumkan judul buku, pengarang, dan
nomer soal yang dikerjakan, plus halaman buku
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Apa saja yang dipelajari?
• Keseimbangan partikel
• Keseimbangan benda tegar
• Diagram gaya normal, diagram gaya geser, dan diagram momen
• Konsep tegangan
• Momen inersia dan momen polar
• Teori kegagalan statis
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Apa pentingnya mekanika (statik) / keseimbangan ?
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Apa perbedaan partikel dan benda tegar?
• Particle: A very small amount of matter which may be assumed to occupy a single point in space.
• Rigid body: A combination of a large number of particles occupying fixed position with respect to each other.
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Apa perbedaan Partikel dan Benda Tegar ?
Partikel:
Mempunyai suatu massa namun ukurannya dapat diabaikan, sehingga geometri benda tidak akan terlibat dalam analisis masalah
Benda Tegar:
Kombinasi sejumlah partikel yang mana semua partikel berada pada suatu jarak tetap terhadap satu dengan yang lain
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Contoh Partikel
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Contoh Benda Tegar
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Review Sistem Satuan• Four fundamental physical quantities. Length, Time, Mass, Force.
• We will work with two unit systems in static’s: SI & US Customary.
Bagaimana konversi dari SI ke US atau sebaliknya ?
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Apa yang harus dilakukan supaya Mekanika Teknik menjadi mudah ?
Banyak dan sering menyelesaikan soal-soal
Prosedur mengerjakan soal:1. Baca soal dengan cermat
2. Buat free body diagram dan tabulasikan data soal
3. Tuliskan prinsip dasar / persamaan yang relevan dengan soal
4. Selesaikan persamaan sepraktis mungkin sehingga didapat hasil yang signifikan dan jangan lupa disertai sistem satuan
5. Pelajari jawaban dengan akal sehat, masuk akal atau tidak
6. Jika ada waktu, coba pikirkan cara lain untuk menyelesaikan soal tersebut.
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THE WHAT, WHY AND HOW OF A
FREE BODY DIAGRAM (FBD)
Free Body Diagrams are one of the most important things for you to know how to draw and use.
What ? - It is a drawing that shows all external forces acting on the particle.
Why ? - It helps you write the equations of equilibrium used to solve for the unknowns (usually forces or angles).
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How ?
1. Imagine the particle to be isolated or cut free from its surroundings.
2. Show all the forces that act on the particle.Active forces: They want to move the particle. Reactive forces: They tend to resist the motion.
3. Identify each force and show all known magnitudes and directions. Show all unknown magnitudes and / or directions as variables .
FBD at A Note : Engine mass = 250 Kg
A
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Fundamental Principles• The parallelogram law for the addition of forces: Two
forces acting on a particle can be replaced by a single force, called resultant, obtained by drawing the diagonal of the parallelogram which has sides equal to the given forces
f1
f2
f1+f2
• Parallelogram Law
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Fundamental Principles (cont’)
• The principle of transmissibility: A force acting at a point of a rigid body can be replaced by a force of the the same magnitude and same direction, but acting on at a different point on the line of action
f1
f2
f1 and f2 are equivalent if their magnitudes are the same and the object is rigid.
• Principle of Transmissibility
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APPLICATION OF VECTOR ADDITION
There are four concurrent cable forces acting on the bracket.
How do you determine the resultant force acting on the bracket ?
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Addition of Vectors
• Trapezoid rule for vector addition
• Triangle rule for vector addition
B
B
C
C
QPR
BPQQPR
cos2222
• Law of cosines,
• Law of sines,
A
C
R
B
Q
A sinsinsin
• Vector addition is commutative,
PQQP
• Vector subtraction
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Sample Problem
The two forces act on a bolt at A. Determine their resultant.
SOLUTION:
• Trigonometric solution - use the triangle rule for vector addition in conjunction with the law of cosines and law of sines to find the resultant.
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Sample Problem (cont’)• Trigonometric solution - Apply the triangle rule.
From the Law of Cosines,
155cosN60N402N60N40
cos222
222 BPQQPR
AA
R
QBA
R
B
Q
A
2004.15
N73.97
N60155sin
sinsin
sinsin
N73.97R
From the Law of Sines,
04.35
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ADDITION OF SEVERAL VECTORS
• Step 3 is to find the magnitude and angle of the resultant vector.
• Step 1 is to resolve each force into its components
• Step 2 is to add all the x components together and add all the y components together. These two totals become the resultant vector.
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Example of this process,
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You can also represent a 2-D vector with a magnitude and angle.
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EXAMPLE
Given: Three concurrent forces acting on a bracket.
Find: The magnitude and angle of the resultant force.
Plan:
a) Resolve the forces in their x-y components.
b) Add the respective components to get the resultant vector.
c) Find magnitude and angle from the resultant components.
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EXAMPLE (continued)
F1 = { 15 sin 40° i + 15 cos 40° j } kN
= { 9.642 i + 11.49 j } kN
F2 = { -(12/13)26 i + (5/13)26 j } kN
= { -24 i + 10 j } kNF3 = { 36 cos 30° i – 36 sin 30° j } kN
= { 31.18 i – 18 j } kN
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EXAMPLE (continued)
Summing up all the i and j components respectively, we get,
FR = { (9.642 – 24 + 31.18) i + (11.49 + 10 – 18) j } kN
= { 16.82 i + 3.49 j } kN
x
y
FRFR = ((16.82)2 + (3.49)2)1/2 = 17.2 kN
= tan-1(3.49/16.82) = 11.7°
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Sample Problem
Four forces act on bolt A as shown. Determine the resultant of the force on the bolt.
SOLUTION:
• Resolve each force into rectangular components.
• Calculate the magnitude and direction of the resultant.
• Determine the components of the resultant by adding the corresponding force components.
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Sample Problem (cont’)SOLUTION:
• Resolve each force into rectangular components.
1.4N1199
N314tan
.
.
R
R
x
y
• Calculate the magnitude and direction.
N6.199sin
N3.14
R
1.4
• Determine the components of the resultant by adding the corresponding force components.
1.199xR 3.14yR9.256.96100
0.1100110
2.754.2780
0.759.129150
4
3
2
1
F
F
F
F
compycompxmagforce
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READING QUIZ
1. The subject of mechanics deals with what happens to a body when ______ is / are applied to it.
A) magnetic field B) heat C) forces
D) neutrons E) lasers
2. ________________ still remains the basis of most of today’s engineering sciences.
A) Newtonian Mechanics B) Relativistic Mechanics
C) Euclidean Mechanics C) Greek Mechanics
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READING QUIZ
3. Which one of the following is a scalar quantity?
A) Force B) Position C) Mass D) Velocity
4. For vector addition you have to use ______ law.
A) Newton’s Second
B) the arithmetic
C) Pascal’s
D) the parallelogram
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CONCEPT QUIZ
5. Can you resolve a 2-D vector along two directions, which are not at 90° to each other?
A) Yes, but not uniquely. B) No. C) Yes, uniquely.
6. Can you resolve a 2-D vector along three directions (say at 0, 60, and 120°)?
A) Yes, but not uniquely. B) No. C) Yes, uniquely.
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ATTENTION QUIZ
7. Resolve F along x and y axes and write it in vector form. F = { ___________ } N
A) 80 cos (30°) i - 80 sin (30°) j
B) 80 sin (30°) i + 80 cos (30°) j
C) 80 sin (30°) i - 80 cos (30°) j
D) 80 cos (30°) i + 80 sin (30°) j
8. Determine the magnitude of the resultant (F1 + F2) force in N when F1 = { 10 i + 20 j } N and F2 = { 20 i + 20 j } N .
A) 30 N B) 40 N C) 50 N
D) 60 N E) 70 N
30°
xy
F = 80 N
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