UNIVERSITI
TEKNOLOGI
PETRONAS
FINAL EXAMINATION
JULY 2001 SEMESTER
COURSE : SPB 1023 PHYSICS II
DATE
TIME
SECTION A
SECTION B
26 NOVEMBER 2001 (MONDAY)
2.30 PM 5.30 PM (3 hours)
INSTRUCTIONS TO CANDIDATES
Answer ALL questions in the OMR sheet.
1. Answer F
Mechanics of Materials
AP Dr. Hamed Mohebbi
Universiti Teknology Petronas
[email protected]
SK/Chap1/1
Chapter 3-3: Mechanical
Properties of Material
SK/Chap1/2
Learning Outcomes
At the end of this chapter, students should be able to:
Relationship
Mechanics of Materials
AP Dr. Hamed Mohebbi
Universiti Teknology Petronas
[email protected]
SK/Chap1/1
Chapter 1-2: Stress in Thin Wall
Cylinder
SK/Chap1/2
Learning Outcomes:
At the end of this chapter, students should be able to:
Apply the method
Chap 5 : Torsion
Learning Outcomes:
At the end of this chapter, students should be able to:
Determine the stress distribution within the member under
torsional load
Determine the angle of twist when the material behaves in a
linear-elastic manner
Solve
Tutorial-6
1. The A992 steel rod is subjected to the loading shown. If the cross-sectional area
of the rod is 60mm 2, determine the displacement of B and A, Neglect the size of
the couplings at B, C, and D.
2. The assembly consists of two 10-mm diameter r
Chap 5 : Torsion
Learning Outcomes:
At the end of this chapter, students should be able to:
Determine the stress distribution within the member under
torsional load
Determine the angle of twist when the material behaves in a
linear-elastic manner
Solve
Chap 6 : Bending
Learning Outcomes:
At the end of this chapter, students should be able to:
Construct shear and moment diagrams for beams and shafts
Determine the critical locations for shear and moment in a
member
Determine the bending stresses in a l
Mechanics of Materials
AP Dr. Hamed Mohebbi
Universiti Teknology Petronas
[email protected]
SK/Chap1/1
Chapter 1: Strain Concept
SK/Chap1/2
Learning Outcomes
At the end of this chapter, students should be able to:
Define the concepts of normal and
Tutorial-4
1. The rigid pipe is supported by a pin at A and an A-36 guy wire BD. If the wire has a
diameter of 6 mm., determine the load P if the end C is displaced 1.875 mm.
downward.
2. The wire has a diameter of 5 mm and is made from A-36 steel. If a 8
Tutorial-2
1. A thin strip of rubber has an unstretched length of 375 mm. If it is stretched
around a pipe having an outer diameter of 125 mm., determine the average
normal strain in the strip.
2. The rigid beam is supported by a pin at A and wires BD and
Mechanics of Materials
AP Dr. Hamed Mohebbi
Universiti Teknology Petronas
[email protected]
SK/Chap1/1
Chapter 3-1: Mechanical
Properties of Material
SK/Chap1/2
Learning Outcomes
At the end of this chapter, students should be able to:
Discuss the
Mechanics of Materials
AP Dr. Hamed Mohebbi
Universiti Teknology Petronas
[email protected]
SK/Chap1/1
Chapter 3-2: Mechanical
Properties of Material
SK/Chap1/2
Learning Outcomes
At the end of this chapter, students should be able to:
Discuss the
Tutorial-5
1. The - diagram for elastic fibers that make up human skin and muscle is shown.
Determine the modulus of elasticity of the fibers and estimate their modulus of
toughness and modulus of resilience.
2. The elastic portion of the tension stressst
Mechanics of Materials
AP Dr. Hamed Mohebbi
Universiti Teknology Petronas
[email protected]
SK/Chap1/1
Chapter 4: Axial Load
SK/Chap1/2
Learning Outcomes
At the end of this chapter, students should be able to:
Determine the elastic deformation in
Chap 6 : Bending
Learning Outcomes:
At the end of this chapter, students should be able to:
Construct shear and moment diagrams for beams and shafts
Determine the critical locations for shear and moment in a
member
Determine the bending stresses in a l
Tutorial-1
1. Determine the resultant internal loadings on the cross section through point D.
Assume the reactions at the supports A and B are vertical.
2. The shaft is supported at its ends by two bearings A and B and is subjected to the
forces applied t
Tutorial-3
1. A tension test was performed on a steel specimen having an original diameter of
12.5 mm. and gauge length of 50 mm. The data is listed in the table. Plot the
stressstrain diagram and determine approximately the modulus of elasticity, the
yie
MDB2053 Fluid Mechanics
Tutorial Introduction to Navier Stokes Equation
Guidelines:
1. Analyze and solve the following problems on your own
2. Discuss with your peer next to you, update your result accordingly
3. We will discuss the result/ solution with
CHAPTER 4
CONTINUOUS PROBABILITY
DISTRIBUTION
Week 6Normal Distributions
L2- Nonstandard
And other continuous distributions
Jan 2014
1
Learning Objectives:
At the end of the lecture, you will be able to :
- transform a nonstandard normal distribution to
a
MDB2053 Fluid Mechanics
Tutorial Compressible fluid flow
Guidelines:
1. Analyze and solve the following problems on your own
2. Discuss within a group of 4 students, update your result accordingly
3. We will discuss the result/ solution with the whole cla
MN 1 seem!
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FINAL EXAMINATION
JANUARY 23 SEMESTER
COURSE : SPB1023-PHISIESII
DATE .' 23 MAY sees cfw_FRIDAI
TIME 911D AM~12. NODN cfw_3 hnursl
[HST RQCTIDNS TU CAN [HEAT ES
SECTION A : Answer ALL nuesIlens in the GIMP. sheeI
SECTIO
UN iVERSlTI
TEKNOLOGI
P ET RONAS
FINAL EXAMINATION
JULY 2002: SEMESTER
COURSE : SPB 1023 PHYSICS ll
DATE : . 20 NOVEMBER 2002 (WEDNESDAY)
TIME : 9.00 AM 12.00 NOON (3 hours)
+-
INSTRUCTIONS TO CANDIDATES
SECTION A : Answer ALL questions in the OMR sheet.
UNIVERSITI
EEKNOLOWQI
PETRONAS
FINAL EXAMINATION
JANUARY 2004 SEMESTER
COURSE EPF 0024 PHYSICS II
DATE : 9 JUNE 2004 (WEDNESDAY)
TIME : 9.00 AM 12.00 NOON (3 hours)
INSTRUCTIONS TO CANDIDATES
SECTION A : Answer ALL questions in the OMR s
! P
If
UN [VERSITI
W
PETRONAS
FINAL EXAMINATION
JANUARY 2009 SEMESTER
EPF0024 PHYSICS II
29 MAY 2009 (FRIDAY)
3.00 PM - 6.00 PM (3 hours)
_m_L_
INSTRUCTIONS TO CANDIDATES
SECTION A : Answer ALL questions in the OMR sheet.
SECTION B ; 1. Answer FOUR (4) ou
CHAPTER 5
CONTINUOUS PROBABILITY
DISTRIBUTION
Week and
7
L1- Exponential
Normal
distribution
L2- Nonstandard Normal Distributions
And other continuous distributions
Exponential and Normal
Distribution
Learning Objectives:
At the end of the lecture, you wi