تُضبضأ وىهع ىطق...
TRANSCRIPT
23 | P a g e
يعبيم قطى عهىو أضبضت
انطبحت و انذور انعم و2
انتجهساث انقرراث انذراضت انت خذيهب
انعم انهبراث انت كتطبهب انطبنب
1
Workshop (008)
د/نجوى الهمشرى
قدرى زن احمد م/
الورشة مسئوال
م/محمد عامر
0348
- 1628710
- 735500
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Fundamentals of manufacturing
engineering
Classifications of materials
Prosperities of materials
Explain different uses of machines in work
shop such as (Turning machine, milling
machine, grinding machine, drilling machine,
Shaping machine, Sawing machine….) and
their important in practical life
Explain casting process, its types, advantages
and disadvantages
Explain different types of welding,
importance of welding and skills of welding
Discuss Rolling, Forging, Drawing and Deep
Drawing processes and their uses in several
products.
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2 Physics Lab (219)
د/اهاب حجازى
د/على الحددى
م/
م/ مصطفى جودة
م/احمد حسنى
امن المعمل :
أ/مروة سعد
2 112 Physics (1)
Fine measurements: -
Vernier Calipper
Micrometer
Stop Watch
Digital Balance
Thermometer
Viscosity: -
Aim: -
Determination the Viscosity Coefficient of
unknown liquid.
Components: -
Stop Watch
Micrometer
Meter Ruler
Small Solid Balls with Different Diameters
Vernier Caliper
Long glass Tube
Liquid of unknown viscosity coefficient
Melting point:-
Aim:-
Determination of the melting point of solid
material(Wax)
Components:-
Boiler
Water bath
Testing Tube
Solid Material(Wax)
Thermometers
Stop Watch
Heat insulating Box
Mixing:-
Aim:-
Determination the specific heat of a solid
substance by using mixing method
Component:-
Boiler
Heater
Two Thermometers
Water
Solid substance
Digital Balance
Calorimeter
Heat insulating box
Hook Law:-
Aim:-
Verify Hook Law
Determination the gravity acceleration(g)
Determination Hook constant (K)
Components:-
Weight
Holder
Simple Pendulum
Aim:-
Determination the Gravity Acceleration (g)
Components:-
Holder
Stop Watch
Ruler
Weight (Ball)
Rope
Physics (2)
Metric Bridge: -
Aim :-
Determination the unknown resistance using
meter bridge
Verification the series and parallel
connection laws
Components: -
Meter bridge
Galvanometer
Resistance Box
Unknown resistance (Al least two)
Wires
DC power supply
انزانق
Dielectric constant :-
Aim :-
Determination the Dielectric constant for
capacitor filter.
Component:
AC power Supply (0-500)V.
Multimeter.
Capacitor.
Pyrex Plate.
Glass Plate.
RL&RC Circuit
Aim :-
Determination the unknown value of the
inductance of a coil.
Determination the unknown value of the
capacitance of a capacitor.
1- Physics (1)
2- Physics (2)
Physics (1)
Fine measurements: -
Vernier Calipper
Using the vernier caliper to measure the
internal diameter of any small tube.
Using the vernier caliper to measure the outer
diameter of any small tube.
Using the verner caliper to measure the depth
of small gaps.
اسزخذاو انقذيخ راد انىسخ ف قبس األقطبس انذاخهخ
واألقطبس انخبسجخ نألبثت.
.اسزخذاو انقذيخ راد انىسخ الجبد عق حفشح يجهىنخ
Micrometer
Using the micrometer for measuring the
diameter of small balls.
. اسزخذاو انكشويزش ف قبس أقطبس انكشاد انصغشح
Stop Watch
Using stop watch For measuring the times
(periodic time – time of cooling )
Digital Balance
Using the digital balance For measuring the
weights of things.
Thermometer
Using thermometers for measuring the
different temperatures of different materials
Viscosity:-
Knowing what did we mean by viscosity
coefficient.
Determination the Viscosity Coefficient of
unknown liquid.
Melting point:-
Knowing what is the melting point definition.
Determination of the melting point of solid
material for example wax.
Mixing:-
Knowing the specific heat definition
Knowing the heat capacity definition
Determination the specific heat of any solid
substance by using mixing method
Hook Law:-
knowing Hook's law
could be able to Determine the gravity
acceleration(g).
could be able to Determine Hook's constant
(K).
Stefan's Law
Knowing what did we mean by stefan's law of
radiation.
To Verify the Fourth power law of radiation
(Stefan's law).
Simple Pendulum
23 | P a g e
3
Physics Lab (223)
أستاذ المادة
د/اهاب حجازى
د/على الحددى
م/
م/ مصطفى جودة
م/احمد حسنى
م/امان محمود
امن المعمل :
دعاء السعد الحلوانىأ/
2 112
Physics (3)
1- Sound
Aim:-
Determination the speed of sound by using one
closed end column of air.
Components:-
Air Column
Tuning forks with Different Frequencies
Graduated Cylinder
Ruler
Liquid
2- Prism
Aim:-
Determination the refractive index of a prism
Components:-
Prism
Ruler
Brotractor
4 Pins
Piece of Cork
3- Liquid lense
Aim:-
Determination the Refractive index of a
liquid by using liquid lense
Component:-
Convex lense
Spherometer
Ruler
Liquid
Plane mirror
Stand(Holder)
Object (سهى)
4- Newton Ringes
Aim:-
Determination the wavelength of a
monochromatic light
Components:-
Soduim Lamp
Newton component
5- Powers of spherical lenses
Aim:-
Determine the focal length and the power of
the lense by :-
Concidence method
General method
Components:-
Concave lense
Convex lense
Plane mirror
Optical source
Optical bench
6- Power of spherical mirrors
Aim:-
Determine the focal length and the power of
mirror
Components:-
Convex mirror
Concave mirror
Concave lense
Optical source
Optical bench
Physics (3)
- Sound
- Knowing what is the definition and types
of waves.
- Determination the speed of sound by using
one closed end column of air.
- Prism
- Knowing the definition and law of
refractive index.
- Determination the refractive index of a
prism.
- Liquid lens
- Knowing the definition and law of
refractive index.
- Knowing what is the lens, the types of
lens.
- Determination the Refractive index of a
liquid by using liquid lens.
- Newton Ringes
- Determination the wavelength of a
monochromatic light.
- Knowing what is a monochromatic light.
- Powers of spherical lenses
- Knowing what is the lens, the types of
lens.
- Knowing what is the focal length for the
length, what is the power of a lens.
- Determine the focal length and the power
of the lense by :-
- Concidence method
- General method
- Power of spherical mirrors
- Knowing what is a mirror.
- Knowing what is the focal length for the
length, what is the power of the mirror.
- Determine the focal length and the power
of mirror.
24 | P a g e
4
Chemistry Lab (222)
عن المعمل ونالمسؤل
المادةأستاذ
د.هشام ربع
رضا شعبان سالمة د
الهئة المعاونة
م.م. أسماء الحالج
المعمل أمن
أ.سمر شمس الدن/كمائى
2 112
Experiment 1: Buffer Solution
Aim of Work:
Solutions which undergo only a slight change in
pH when small amounts of acid or base is added
to them are called buffers. Solutions of weak
acids and their salts or weak bases and their salts
tend to resist changes in pH and therefore are
buffer solutions.
Apparatus and Chemicals:
Test tube, Beaker
3N Hydrochloric acid (HCl), Solid sodium
acetate (NaAc) , 3N Sodium
hydroxide (NaOH) Phenolphthalein
indicator (Ph. Ph.), 6N Acetic Acid
(HAc), Methyl orange indicator (M.O)
Experiment 2: Titration of acids and bases
Aim of Work:
The aim of this experiment is to demonstrate the
use of titration as an analytical tool, an example
of its uses is the determination of the
concentration of an unknown acid solution.
Apparatus and Chemicals:
250 mL Erlenmeyer flask, 50 mL Burette, 20
mL Pipette, 50 mL Beaker
0.06N NaOH approximately,
Phenolphthalein indicator, Unknown HCl
solution
Experiment 3: Oxidation-Reduction
Titrations
Aim of Work:
Volumetric methods can be extended to include
the analysis of substances which undergoes
rapid, quantitative oxidation or reduction
reactions. Aim to find unknown F.A.S
concentration by using KMnO4 considering self-
indicator.
Apparatus and Chemicals:
250 mL Erlenmeyer flask, 50 mL Burette, 20
mL Pipette, 50 mL Beaker
Unknown FeSO4.(NH4)2.6H2O, 0.1N KMnO4
Experiment 4: Iodimetric Titration
Aim of Work:
The reference method for measuring the iodine is
Iodimetric titration with the thiosulphate, starch
is used as indicator. Reagents for testing iodine
include 0.1 M sodium thiosulphate (Na2S2O3),
and the starch indicator solution.
Apparatus and Chemicals:
250 mL Erlenmeyer flask, 50 mL Burette, 20
mL Pipette, 50 mL Beaker
Iodine solution of unknown concentration
Sodium thiosulphate (Na2S2O3.5H2O)
solution (0.1 molar), Starch indicator.
Experiment 5: Determination Of The Total
Acidity Of Vinegar By Acid-Base Titration
Aim of Work:
Vinegar contains several acids whose total
concentration can be determined by titration
with a strong base such as sodium hydroxide.
The total acidity generally is reported as
percent acetic acid, which is the principal
acid present in most commercial vinegars.
Since the pH equivalence point of the
titration is basic, phenolphthalein is the
indicator of choice.
Apparatus and Chemicals:
250 mL Erlenmeyer flask, 50 mL Burette, 20
mL Pipette, 50 mL Beaker
NaOH, 50% (w/v), carbonate-free, (7 mL)
KHC8H4O4, primary-standard-grade, (5 g)
Phenolphthalein indicator
Experiment 6: Determination of Sulfates in
Water and Wastewater by A Gravimetric
Method with Drying The Residue
Aim of Work:
Sulfate is precipitated in a hydrochloric acid (HCl)
solution as barium sulfate (BaSO4) by addition of
barium of chloride (BaCl2). The precipitation is
carried out near the boiling temperature, and after a
period of digestion, the precipitate is filtered, washed
with distilled water until free of Cl-, ignited or dried,
and weighed as BaSO4.
Apparatus and Chemicals:
100 mL Beaker, 250 mL Beaker, 100 mL Pipette,
Watch glass, Hot plate, Thermometer Membrane
filter paper, Vacuum pump system Methyl red
indicator, BaCl2 solution, Unknown water sample
Engineering chemistry
To Know the definition of the term "Buffer
Solutions", and compare between the two
types of them and test the changing in pH
compared to the neutral solutions.
Demonstrate the use of titration as an
analytical tool, and determination of the
concentration of an unknown strong acid
solution using titration technique.
Determination of the concentration of an
unknown solution using titration technique
based on oxidation and reduction reactions.
Give a method for measuring the iodine
concentration in natural.
Demonstrate the use of titration as an
analytical tool, and determination of the
concentration of an unknown weak acid
"Vinegar" solution and determine total
acidity of it.
25 | P a g e
معامل برنامج الهندسة المعمارة
عملالم و انطبحت و انذور 2
انتجهساث انقرراث انذراضت انت
خذيهب انعم انهبراث انت كتطبهب انطبنب
1
Model Making Lab (439)
شهرة رزق د/
معدى قسم الهندسة المعمارة
أمن معمل
أ/ مسعود حسن عبدالعزز
112
1234
12
2
معمل عمارة
عبدالمنعم الطولحاتم د/
معدى قسم الهندسة المعمارة
أمن المعمل
أ/ صابر حامد نبوى
112
Laser cutter
Plotter
Model making
Landscape design
26 | P a g e
يعبيم بربيج هذضت االتصبالث
عملالم و انطبحت و انذور 2
انتجهساث انت انقرراث انذراضت
خذيهب انعم انهبراث انت كتطبهب انطبنب
1
Microprocessor and
control Lab.
مهندس المعمل :
صالح السد لمس/م
المعمل امن اسم
محمد أمن سعدا /
4
56
Digital Circuit Components
Experiments RDT 3008A
Fundamental Logic Gate AND , OR
Fundamental Logic Gate NAND , NOR , XOR
Application of Boolean Algebra
DE Morgan's Law (1) & DE Morgan's Law (2)
Diode Resistor Logic-And
Excusive OR using Basic Logic Gate
Excusive NOR using Basic Logic Gate
DE multiplexer – using the 74138 IC
Synchronous Down – counter
The Schmitt Trigger
Oscillator – using CMOS
MDA – 8086
MDA – 8086
8255 Aintergface
Dot – MatrixLed
8251A Interface
LCD Display
Keyboard Interface
D/A Converter & A/D Converter
Stepping Motor Control Lan Gauge
Relays and contactors
PLC Hardware
Sensors
Proximity and photoelectric sensors
PLC Software
Transfer function
Laplace transform
System simulation
Steady state error
First order system
Second order system
1. Digital and Logic Circuits
2. Microprocessor (1) 3. Automatic Control
system 4. Programmable logic
controller
Student will be able to:
1. Design and create combinational and Sequential
logic circuits.
2. Write a program for 8086 microprocessor using
assembly language.
3. Programming PLC and wiring the input/output
signal
4. Test the sensors and apply connection to PLC
5. Design new power project
6. Simulate and model the real system
7. Test the steady state error
8. Calculate the steady state out put
Automatic Control Suystems (ACS-1000)
ACS-13001.
ACS-13002.
ACS-13003.
ACS-13004.
ACS-13005.
ACS-13006.
ACS-13007.
ACS-13008.
ACS-13009.
ACS-13010.
ACS-13011.
ACS-13012.
ACS-13013.
ACS-13014.
ACS-13015.
ACS-13016. ACS-18001 DC Servo Motor Control Unit.
Programmable logic controller
PLC Device FATEK FPS-20MCT.
Analog I/O Module.
BT100 for temperature controller.
Power Supply 220VAC/24VDC.
Servo Motor Drive.
Inverter one phase to 3-phase.
Relay 24VDC with base.
Relay 220VAC with base.
3-phase Solid State relay 80A.
3-phase Solid State relay 40A.
Electronic valve 2 core.
Single core electronic valve.
Contactor 40A with overload.
Contactor 25A with overload.
Contactor 50A.
Temperature controller smartec.
Thermocouple.
Proximity sensors.
Incremental Encoder.
Absolute Encoder.
Stepper Motor.
Servo Motor.
Pneumatic Valves.
Communication Module for PLC.
Data access panel.
Displacement sensor.
Programmable Logic Controllers.
Automatic Control Systems.
Student will be able to:
Classify between different types of sensors.
Program PLC using Ladder Diagram and
Function Block (FB).
Deal with different pneumatic valves.
Control different types of motors.
Design Industrial control systems.
Study steady-state error.
Study the transient response of first and
second order control systems.
Measure the steady-state gain and time
constant.
Observe the effect of damping ratio.
Understand the characteristics parameters of
PM DC servo motor.
Study the effect of P, I, D controller.
Study the stability of control system.
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2
Communication lab.
(Analog Digital Optical)
1. Optical Fiber
Communications.
مهندس المعمل :
احمد محمد محمد هاشمم /
المعمل امناسم
ماهرأ/محمد
4 56
Digital Oscilloscope
Function Generator
DJ 2003 Optical fiber
communication
DJ 2001 A communication
principle experiment
DA – 701
DA – 702
CMOS Camera
Telephone
DJ 2003 Optical fiber
communication
Analog Transmitter & Receiver
Digital Transmitter
Fiber optic communications
Experiments
Scattering and absorption losses
Connectors and polishing
Numerical aperure and core area
Bending loss and model dispertion
Light source
Driver circuit
Light detector
Fiber optic test equipment
Optical power budgets
91025-20
Telephone Interface
2M/RS232 Interface
Signal source Module
Bit error test
DJ 2001 A communication principle
experiment
Signal source experiment
Digital Transmission Experiment
Digital Modem And Carrier
Transport Experiment
Code compilation Experiment
Synchronization principle Experiment
Phase Lock Annulations principle
Experiment
1. Optical
Communications
System
2. Optoelectronic Devices
Student will be able to:
Design optical communication system to
meet specific needs.
Use CAD tools to analyze the performance
of optical communication systems
identify and demonstrate the parts of fiber
optic transmitter
identify and demonstrate the parts of fiber
optic receiver
28 | P a g e
تمعامل برنامج هندسة االتصاال
عملالم و انطبحت و انذور 2
انتجهساث انقرراث انذراضت انت
خذيهب انعم انهبراث انت كتطبهب انطبنب
34 | P a g e
2
Communication lab.
(Analog Digital
Optical)
2. Analog
Communications.
4 56
Analog communications
This module covers seven analog communications circuits ; AM Transmitter and receiver single sideband transmitter and receiver Am receiver and SSB receiver with automatic gain control frequency modulator (FM) phase 2 modulator (pm) quadrature Detector (FM Demodulation) phase – locked loop (p11) circuit and p11 fm detector .
91018-20
Implement the following experiments :
1 . AM analog communication system
2 . AM transmission
3 . AM reception
4 . single side band (SSB) transmission
5 . single side band (SSB) reception
6 . angle modulation
7 . angle demodulation
Digital communications 1
Experiments
• Introduction to digital communications
Satellite communication Trainer
Model No. 2272A
List Of Components :
- Uplink Transmitter .
- Satellite Link .
- Downlink Receiver .
- Audio-Video Cable 2 Pin .
- Patch Cord 16”(4 mm).
- Microphone.
- Dish Antenna.
- USB Cable.
- Pencil Cell (Microphone) .
- Mains cord .
- PC Software
Pulse amplitude modulation
PAM time domain multiplexing
Pulse code modulation (PCM)
Delta modulation (CM)
Channel Effects 91022-20
Implement the following experiments :
1 . Digital communication system concept
2 . PAM signal generation and demodulation
3 . PAM – TDM transmission and reception
4 . PTM signal generation and demodulation
5 . PCM signal generation and demodulation
6 . PCM – TDM transmission and reception
7 . MM transmission and reception
1. Fundamental of Communications
2 Introduction to
Telecommunication
Networks
3-Satellite
Communications (1)
4-Satellite
Communications (2)
Student will be able to:
1. Design communications systems to meet
specific specifications and constraints.
2 Use CAD tools to simulate and analyze
communication systems.
Student will be able to: - Transmitting & receiving three separate Signals
(Audio, Video, and Tone/ Voice) simultaneously
through satellite link and perform Link Fail
Operations
- Transmitting & receiving Function Generator
Waveforms through Satellite Link
- Transmitting and receiving PC data through
satellite link
- Study the delay between Uplink transmitter and
Downlink receiver during data transmission
- Send Tele-command and receive Temperature &
intensity of light from satellite
- Calculate the carrier to noise ratio for a satellite
link
- Calculate signal to noise ratio for a satellite link
34 | P a g e
انطبحت و انذور المكان و2
انتجهساث انقرراث انذراضت انت
خذيهب انعم انهبراث انت كتطبهب انطبنب
2
Communication lab.
(Analog Digital
Optical)
3. Digital
Communications.
4 56
Digital communications 1
Experiments
• Introduction to digital communications
• Pulse amplitude modulation
• PAM time domain multiplexing
• Pulse code modulation (PCM)
• Delta modulation (CM)
• Channel Effects 91022-20
Implement the following experiments :
1 .Digital communication system concept
2 .PAM signal generation and demodulation
3 .PAM – TDM transmission and reception
4 .PTM signal generation and demodulation
5 .PCM signal generation and demodulation
6 .PCM – TDM transmission and reception
7 .MM transmission and reception
Digital communications 2
Experiments
• Introduction to digital communications II
• Line coding
• Frequency shift keying
• Phase shift keying
• Amlituide shift keying
• Effects of noise
• Modem 91023-20
Implement the following experiments :
1. Digital communication system model
2. Line coding / decoding
3. ASK generation and detection
4. FSK generation and detection
5. PSK generation and detection
Fiber optic communications
Experiments
Scattering and absorption losses
Connectors and polishing
Numerical aperure and core area
Bending loss and model dispertion
Light source
Driver circuit
Light detector
Fiber optic test equipment
Optical power budgets
91025-20
2. Digital Communications
Student will be able to:
Design optical communication system to meet
specific needs.
Use CAD tools to analyze the performance of
optical communication systems
33 | P a g e
يعبيم بربيج هذضت االتصبالث
انطبحت و انذور انكب و2
انتجهساث انقرراث انذراضت انت
خذيهب انعم انهبراث انت كتطبهب انطبنب
32 | P a g e
3
Antenna and
Microwave Lab.
مهندس المعمل :
م / امان الخضري عل الباز
المعمل اسم امن
وسم ابراهم حسن حسن ابو العطاا /
4 56
Communications transmission lines Experiments 1 - characteristics of transmission lines Velocity of propagation & Attenuation and distortion 2- transmission line measurements under transient (step testing) conditions Voltage reflection coefficient at the load and generator with purely resistive impedances Transient behavior of a line terminated by complex load impedances 3- transmission line measurements under sinusoidal steady state conditions Effect of attenuation on VSWR The smith chart resonant lines and impedances transformation 91028-20 Base unit with built – in power supply (computerized) with suitable software 91000-15 Dual – trace digital storage oscilloscope
798-15
Microwave Trainer Model No.Nvis 9000
The equipment consist of :
• A selection of wave-guide components
• The Power Supply for the microwave source
• A detector
• A meter, which monitors the detector output
• A Demo Video CD
• Audio Communication
• Provided with PC to PC communication in Gunn based Benches
• Wall Chart
1. Electromagnetic
Theory
2. Microwave
Engineering
Microwave Circuit
Design
1. Determine the Thevenin equivalent circuit for step
and signal generators
2. Measurement of the velocity of propagation of a
signal in a transmission line
3. Measurement of the relative permittivity , of a
transmission line
4. Measurement of the distributed capacitance , C per
unit of a line
5. Measurement of the distributed inductance , L of a
line
6. Measurement of the voltage standing wave ratio
(VSWR)
7. implement transmission line matching
33 | P a g e
انطبحت و انذور عمان و2
انتجهساث انقرراث انذراضت
انعمانت خذيهب انهبراث انت كتطبهب انطبنب
34 | P a g e
3
Antenna and
Microwave Lab. 4 56
Manual Antenna RotatorMAR 10
Digital Gunn Power Supply GPS 10
SWR Meter square Law VSM 10
Data Communication Software
X band Microwave Power Meter
X band Microwave Power Sensor
ANTENNA TRAINER ATS 10
PLL SyF Transmitter / Receiver
Stepper Motor Controller Unit
Software
Directional Coupler
Log Periodic Dipole Array &
Biconical
Microstrip Slot & Microstrip Annular
Ring Patch
Microstrip Circular patch & Microstrip
Triangular patch & Rectangular
patch.
Microstrip semicircular patch &
Microstrip
Discone & Crossed Dipole &Yagi 3el
, 4 el
Sleeve & Monopole & Dipole L/2 &
L/4
Folded Dipole & L/4 Phase Array
Endfire & Broadside phased array
Helix LHCP & RHCP & Square Loop
Antenna azimuth positioned
Accessories
Microwave Trainer Mwl05 Mda – 8086
Micrometer tunable Broadband Gunn
Oscillator GOB 10
Broadband PIN Diode Modulator PDM10
X Band Microwave Source TDRO 10
Frequen
Calibrated Frequency Meter FMC 10
Broadband Waveguide Detector DWB 10
Slide Screw Tuner with precision Micrometer
SST 10
Calibrated precision Variable Attenuator
Broadband Fixed attenuator FAW 10
Broadband Matched Termination MTB 10
Precision Slotted Line with Broadband
Detector probe SLP 10
Broadband Multihole Waveguide Directional
Coupler MDC 10
Hybrid / Magic Tee MHT 10
Series E plane Tee EPT 10
Shunt H plane Tee HPT 10 Solid Dielectric
cell SDC10
Liquid Dielectric cell LDC 10
Rectangular waveguide RWS 10
Calibrated Phase Shifter psw 10
Broadband Circulator / Isolator CFB 10
Broadband pyramidal Horn Antenna pHA 10
– 2 Nos
Fixed Short FSP 10
Precision Movable Short MSP 10
Broadband Waveguide to Coax adapter WCA
10- 2 Nos .
Waveguide Stands WST10 – 7 NOS
Reflector panel
1-Antenna and
wave Properties.
2. Microwave
Engineering.
Student will be able to :
1. Classify between different types of Antennas.
Create simple antenna structures.
2. Design simple antenna systems. 3. Use of antenna arrays as alternatives to single
physically large antennas.
35 | P a g e
3
Antenna and
Microwave Lab 456
Radar Trainer Model No. 2001
List of Components :
- Audio Cable for PC Line In input .
- Din connector cable (5 Pin) .
- Mains Cord .
- Tripod Stand .
- Fan Stand .
- Fan .
- Sliding Platform .
- Different objects .
- Horn Antenna .
- Trans-receiver Unit .
- Software CD .
Pendulum .
- Stand for moving the pendulum .
- Tuning forks .
- Operation manual .
- Student will be able to:
- Study of the working of a Doppler Radar
- Study of determine the Velocity of the object moving
in the Radar range
- Study of understand the principle of Doppler Radar of
Time
- and Frequency measurement with the help of a
moving pendulum
- Study of an Alarm System by using a Radar
- Study of the Object Counting with the help of Radar
- Study of the detection of vibration of different Tuning
Forks
- Determine the Rotation Per Minute (RPM) of a
moving object (Fan)
- Study of the effect of different types of materials on
Radar
- reception or detection
36 | P a g e
4
Electronic and
measurements Lab.
م / دنا اسماعل عل اسماعل
حسن صالح السدا / صالح
456
KL – 23005 Multistage Amplifier Circuit
KL – 23004 FET Circuit
KL – 23002 Rectifier , Differential And Integral Circuit Electronic circuit fundamental
KL – 23001 Diode , clipper And Clamper
KL – 23003 Transistor Amplifier Circuit
KL – 13002 Magnetism Element introduction
KL – 13003 Magnetic Field Module
KL – 13001 Basic Electricity
AC – 9001 Test Board
Function generators
Dc – power supplies
Analog Oscilloscopes
KL – 21001 Linear circuit
U – TEK M21 – 7000 Analog & Digital Training System
The common Base Amplifier Structure
The common emitter Amplifier Structure
The common collector Amplifier Structure
The op – Amp Differentaitor
The op – Amp Integrator
The A stable Multivibrator – 555 Timer
1. Fundamental of
Electronics.
2. Advanced
Electronics.
3. Electrical Circuit
Analysis.
4. Advanced
Electrical Circuit
Analysis
5. Measurement and
instruments.
Student will be able to:
1. Design simple Electrical circuits and apply kvl and
kcl.
2. Design resonance circuit.
3. Design RC and RL circuits.
4. Design diode circuits for certain specifications.
5. Create power supply circuit.
6. Design amplifier using BJT and FET Transistor.
7. Design summing and integrator and differentiator
circuits using op-amps.
Also,
1- Error & Statistical Measurements
2- Using the oscilloscope and function generator
3- Using the multimeter in the circuit.
4- Determine the Value of a Resistor Using
Wheatstone Bridge.
37 | P a g e
يعبيم بربيج انهذضت انذت
انطبحت و انذور انكب و2
انتجهساث انقرراث انذراضت انت
خذيهب انعمكتطبهب انطبنبانهبراث انت
1
Soil mechanics and foundations
أعضبء هئت انتذرص:
انشرف عه انعم د.راي بكر
ايب جىدةد.
أعضبء انهئت انعبوت:
و.تطى فىد
و.خبنذ بىي
مهندس المعمل :
نبه عوض رزق /م
انعم: أي
يحىد يحذ عىضأ.
0 112
H-5237.5F(American)
Soil Volume Change Meter (PVC)
HM-2415 American
Pocket Shear Van Metal
H-4212MH
Four Pladed Van Shear Set
H-4227 H-4368A(American)
Plate Bearing Test Set
UTS-1200(Turkey)
Hydrometer analysis set(soil)
H-4263 A.4F(American)
ELE 24-4919 Sand Equivalent Apparatus
ASTM Ashto with carrying case
ELE 24-4919/10 concentrated stock solution for sand equivalent apparatus
ELE 24-0417/01 Motorized liquid limit device W/Counter BS220-240V 50Hz 1Ph
Cassagrande Liquid Limit
ELE 24-0410 Liquid limit device BS with counter .C/W Metal Grooving Tool &Test Gauge
Gauge B.S
ELE 24-0430 Glass Plate
Plastic limit
Digital sieve shaker for 8" dia sieves
(heavy duty)
Sieve size 0.075 mm , 0.1 mm , 0.25 mm , 0.5 mm , 1 mm , 2 mm , 5 mm , 10 mm,20mm,with pan and lid-(11 pieces) American
Balance & scale 220 g /0.001 g
Balance Scale 220g HB-4700A.4F American
Balance Scale3000 g
Readable to (0.01g)
HB-4705A.4F(American)
Soil Penetrometer, Pocket-Type
Digital Display Constant Temperature Conviction Over
(94 x61x89 cm) H-30366.4F(American)
Shrinkage Limit Set
H-4254(American)
Cone Penetrometer Digital Liquid Limit Testing(BS 1337-2,NF P94-0521,CEN ISO/TS 17892) With dimensions (220x170x10 mm)
- Geotechnical
Engineering (CIV216)
- Soil Mechanics &
Foundations
(CIV222)
- -Foundation
Engineering (STE421)
و الخدمات ؤدي المعمل دور أساس ف خدمة العملة التعلمة والبحثة والمجتمعة
-:وفما لى تفصل لهذه الخدمات االستشارة
:أوال: ف مجال خدمة المجتمع وتنمة البئة .اعداد التقارر الفنة واختبارات ضبط الجودة ألعمال األساسات السطحة •
:مجال التعلم والبحث العلمثانا: ف تدرب الطالب وخرجى الكلة والمهندسن من الخارج والفنن على اجهزة المعمل •
.المختلفة وكفة االختبارات المعملة والحقلةالهندسة للقام بأبحاثهم ةبكل العضاء الهئة المعاونةتح المعمل كل امكاناته •
ء البحث العلمى و نشر العدد من االبحاث بالمؤتمرات و وبذلك ساهم المعمل فى اثرا
.المجالت المحلة و العالمة
الخدمات االستشارة::ثالثا
: أ( أبحاث التربة (
قوم المعمل بتنفذ جسات للتربة وذلك لدراسة خصائص التربة الطبعة – 1
د األدوار ونوعه والمكانكة وتحدد أقصى مقاومة لتحمل التربة ومن ثم تحدد عداالساسات وجهد ومنسوب التأسس وأي احتاطات جب مراعاتها أثناء تنفذ
االساسات.الماه الجوفة مع قوم المعمل بتنفذ البزومترات لقاس التغر فى مناسب – 2
الوقت.
قوم المعمل بإجراء االختبارات الحقلة والمعملة بناء على طلب العمل – 3
إختبارات جوده تربة اإلحالل :( ب)قوم المعمل بدراسة جودة تربة اإلحالل بإجراء اختبارات المخروط الرمل – 1
(.Sand Cone testباستخدام جهاز )
(Plate Loading testقوم المعمل بتنفذ اختبارات التحمل اللوحى ) – 2
2
Road labانطرق يعم
:انتذرص هئت أعضبء
انشرف عه انعم هبشى ابراهى.د.ا
بذوي شرف.د.ا
:انعبوت انهئت أعضبء
جىذة احذ.و
عه بض.و
مهندس المعمل :
م / مصطفى محمود احمد
:انعمأي
ا / فؤاد السد أحمد
0 112
Cassagrande test
Proctor hammer manual and molds
Proctor hammer mechanical and molds
Electric oven
Aggregates impact device
Bitumen centrifugal extractor
CBR test
Marshall test
Penetration test for asphalt samples
Ball & Ring test
Manual Marshall compactor
Buoyancy balance
لخلطات جافة كثافة اقصى تعن جهاز Gmm االسفلت
الركام لحببات ةاالستطال قاس مسطرة
Dial gauge
Extractor equipment for Marshall specimen
Mechanical analysis
-Transportation
Engineering and Planning
(CIV 225 )
-Road engineering(STE
313 )
- Pavement Design (STE
425E )
-Ports and Airports
Engineering (STE315E)
-Introduction to Railway
Engineering (CIV 422E)
-Graduation
project(1)(STE 410)
-Graduation project
(2)(STE 42 )
:التعلمة العملة مجال ف
البحث مجاالت ف والمساهمة البكالوروس طلبة خدمة إلى المعمل هدف
مادة فى البكالوروس لطلبة والمعملى العلمى والتدرس ، للدارسن العلمى
.البكالوروس لطلبة العملة واإلمتحانات ، والمطارات الطرق هندسة
:البئة مجال ف
مجاالت فى التكنولوجا نقل فى والمساهمة المجتمع خدمة ال المعمل هدف
اإلختبارات إجراء إلى باإلضافة ، والتدرب الجودة وضبط والمرور الطرق
. األسفلت و والمواد التربة على المعملة
انطبحت و انذور انكب و انتجهساث 2
انقرراث انذراضت انت خذيهب
انعم انهبراث انت كتطبهب انطبنب
38 | P a g e
3
يعم يقبويت انىاد واختببراث
انخرضبت
:انتذرص هئت أعضبء
ا.د/ جبل عبذانعسس
انشرف عه انعم د/ خبنذ ابىانحط
انطخبود/ برا
اعضبء انهئت انعبوت ببنعم
و.و/ اضالو ربض -1
و.و/ عبذانببق فبس -2
و/ طبرق انبذر -3
و/ بض عه -4
يهذش انعم :
و/يحذ ير ضراج انذ
اي انعم
السد محمد حسن السد ا/
0 112
والصغر الكبر للركام القاسة المناخل
-المكبس–المثقب القرص–النفاذة خلة) بلن جهاز ( المانومتر سائل -المانومتر
ابرتى – األسطوانى القضب - العجنة قالب) فكات جهاز ( والنهائى اإلبتدائى الشك
للوشاتله الكثافة قننة جهاز
الركام تقسم جهاز
العصوة مقاس جهاز
التفلطح مقاس جهاز
انجلوس لوس ماكنة
للركام الصدم اختبار ماكنة
(ابانى) المكانكة االنفعال قاس أجهزة
كهربة -مكانكة
االنحناء اختبار ماكنة
طن( 25)العامة االختبار ماكنة
ك نوتن( 100)العامة االختبار ماكنة
مضاف الها ك نوتن(3000الضغط) أختبار ماكنة تجهزة اختبار الطوب
للمعادن على الباردماكنة الثن
الخرسانى القلب جهاز
الخلط لماء األمالح نسبة قاس قلم
الخلط لماء القلوات نسبة قاس قلم
الماء نفاذة قاس جهاز
االنساب قاس جهاز
المحبوس الهواء قاس جهاز
(ركول-فكرز-برنل) الصالدة اختبار ماكنة
للمعادن الصـــدم اختبار ماكنة
الصوتة فوق الموجات جهاز
شمدت مطرقة جهاز
خرسانة خالطة3عدد
ك نوتن(2000)الضغط أختبار ماكنة
الدمك ذاتة الخرسانة اختبارات أجهزة مجموعة
الطازجة الخرسانة أختبارات مجموعة
اسمنتة مونة خالطة
Building Engineering Materials
-Properties and Strength of Materials for construction
Graduation Project
Concrete Technology
انكجش نهشكبو انحجج انزذسط اخزجبس
األسذ عىيخ رع اخزجبس
– األسذ قىاو) رع اخزجبساد
(انهبئ انشك -االثزذائ انشك
نألسذ انىعخ انكضبفخ رع اخزجبس
انكجش انشكبو رقسى
نهشكبو انعصىخ يعبيم رع اخزجبس
انكجش
نهشكبو انزفهطح يعبيم رع اخزجبس
انكجش
نهجشي انكجش انشكبو يقبويخ اخزجبس
انكجش نهشكبو انصذو يعبيم اخزجبس
انعبد ف انحبدصخ انزشكالد نزع
انخزهفخ
االحبء اخزجبس
انصالدح اخزجبس
انصذو اخزجبس
انزصهذح نهخشسبخ انضغط يقبويخ
اخزجبس انض عه انجبسد
اختبارات
(التماسك– الضغط–االنحناء-الشد)
المتصلدة الخرسانة عنات اخذ اختبار
الخلط لماء األمالح نسبة قاس
الخلط لماء القلوات نسبة قاس
الخرسانة وامتصاص نفاذة لتعن المتصلدة
الخرسانة وانساب قوام تحدد اختبار الطازجة
للخرسانة المحبوس الهواء تعن اختبار الطازجة
مجال فى عددة خصائص لتعن الخرسانة
الخرسانة خلط أعمال
المونة خلط
44 | P a g e
4
Sanitary engineering lab
:التدرس هئة أعضاء
هان مهنا.د
د. محمد عبدالحكم
:المعاونة الهئة أعضاء
عوض حسام.م
عوض حمدى.م
سرحان إمان.م
مهندس المعمل :
مصطفى محمود احمد م /
:انعمأي
ا / فؤاد السد أحمد
0 112
Salinity Analysis
DO Analysis
pH Analysis
COD Analysis
Conductivity & TDS Meter
DO Meter
pH Meter & Tester
Photometer
Sanitary Engineering
(STE312)
Water & Wastewater
Treatment (CPM416E)
انخذيبد و وانجزعخ وانجحضخ انزعهخ انعهخ خذيخ ف أسبس دوس انعم ؤد
:انخذيبد نهز رفصم ه وفب االسزشبسخ
:انجئخ ورخ انجزع خذيخ يجبل ف: أوال
انجئخ رهىس واخزجبساد انفخ انزقبسش اعذاد •
:انعه وانجحش انزعهى يجبل ف: صبب
انعهخ االخزجبساد عه وانهذس انكهخ وخشج انطالة رذست •
ثبنؤرشاد االثحبس وشش انعه ثبنجحش نهقبو انعبوخ انهئخ العضبء انعم زح •
.انعهخ وانجالد
:االسزشبسخ انخذيبد:صبنضب
انبئخ انجئخ رهىس أثحبس
.انكبئ انسزههك األكسج رحهم -1
انزاة األكسج دسجخ رحهم -2
انعضىي انكشثى دسجخ رحهم -3
44 | P a g e
انطبحت و انذور انكب و انتجهساث 2
انقرراث انذراضت انت خذيهب
انعم انهبراث انت كتطبهب انطبنب
5
Fluid and hydraulic lab
د/ يحذ عبذانهبد
رب زذاو/
يهذش انعم :
م / ولد محمد الشحات عبد المقصود
ف انعم
أ/ السد سالم محمد
0 112
Hydrostatic Pressure on a submerged surface
Stability of floating bodies
Bernoulli's principle demonstrator (Venturimeter)
Orifice flow meter
Orifice and free jet flow
Friction loss in pipes
Energy losses in bends
Fluid mechanics and hydraulic
-Locate the center of pressure.
-Compute the hydrostatic force acting on submerged surface
-Calculate the metacentric height (MG.)
-Study the stability of floating bodies
-Demonstration of Bernoulli’s theorem
-Calculate the coefficient of discharge
-Calculate discharge through orifice
-Calculate the hydraulic coefficients (Cd,Cv,Cc)
Measure head flow curve
-Measure head losses through bends, transitions and fittings.
-Use these measurements to estimate the loss coefficients for each phase.
6
Surveying engineering lab
هئة التدرس:
رائد حسونةد.
د.امن هالل
أعضاء الهئة المعاونة:
م.اشرف شحاته
م.حمدي عوض
مهندس المعمل :
م / محمد عالء عبد الحافظ
أمن المعمل:
عبدالرازق أ.أحمد
0 112
Level device
Theodolite
Total station
geology and
engineering
surve(CIV124)
Surveying
CIV217
Surveying
(CIV217)
Graduation project
(survey)
و الخدمات المعمل دور أساس ف خدمة العملة التعلمة والبحثة والمجتمعة
-:وفما لى تفصل لهذه الخدمات االستشارة
:ئةالب أوال: ف مجال خدمة المجتمع وتنمة
.لالعمال المساحة اعداد التقارر الفنة •
:ثانا: ف مجال التعلم والبحث العلم
تدرب الطالب وخرجى الكلة والمهندسن من الخارج والفنن على اجهزة •
.المعمل المختلفة وكفة االختبارات المعملة والحقلة
الهندسة للقام ةبكل العضاء الهئة المعاونةتح المعمل كل امكاناته •
بأبحاثهم وبذلك ساهم المعمل فى اثراء البحث العلمى و نشر العدد من االبحاث
.بالمؤتمرات و المجالت المحلة و العالمة
الخدمات االستشارة::ثالثا
: الرفع المساحأ( (
باعمال الرفع لمساح الي من المبان القائمة و عمل تقارر قوم المعمل – 1
فنة عن مدي دقة توقع المبان وتقسم االراض وتوقع الخوازق : اعمال التوقع( ب)
قوم المعمل بعمل كل انواع توقع النقط من )مناسب حفر ، اعمال الخوازق
،اعمال الطرق ، تقسم االراض (