About Us: En'Urga Inc. is the industry leader in customized optical diagnostic equipment for the most challenging factory floor applications. En'Urga Inc. specializes in research, design, prototype development, customization, and calibration of optical diagnostic equipment for the factory floor, suitable for the measurement of temperatures, gas concentrations, emissivity, and particulate characteristics for both single- phase and two- phase reacting flows.
About Us: En'Urga Inc. is the industry leader in customized optical diagnostic equipment for the most challenging factory floor applications. En'Urga Inc. specializes in research, design, prototype development, customization, and calibration of optical diagnostic equipment for the factory floor, suitable for the measurement of temperatures, gas concentrations, emissivity, and particulate characteristics for both single- phase and two- phase reacting flows.
Electromagnetic Levitation (control project)Salim Al Oufi
This project is about controlling the position of a magnetic ball by using PID controller. The ball position controlled by changing the magnetic field from the solenoid. Sensors give a feedback of the position of the magnetic ball. This is the simplest description for this paper.
Transcript PHY 21041 Lab 8 Hi again! Well back in Lab 4, y.docxturveycharlyn
Transcript: PHY 21041 Lab 8
Hi again! Well back in Lab 4, you measured the speed of sound in two different ways.
That’s quite an accomplishment because sound travels as fast as a bullet or a jet plane.
In this lab, your mission‐ should you decide to accept it‐ is to measure the speed of light!
Light‐ about a million times faster than sound. And it may sound crazy, but one way to
do that‐to measure the speed of light‐ is to use a microwave safe plate, and uh,
marshmallows, or chocolate chips, or a candy car. This one fell over. I’ll just eat.
Okay, not the speed of light, exactly, but of microwaves, a cousin of light. Use an
ordinary microwave oven, take out the tray inside and the roller mechanism, so it won’t
rotate, put the plate of marshmallows or chocolate inside, set it for about thirty seconds
or so and let it run. What you’ll see when you take the plate out, is little melted spots in
the marshmallows or chocolate. They correspond to the locations of the antinode of
the standing wave inside the oven. You want to measure the distance in centimeters
between those hot spots as accurately as you can, then follow the directions in Learn.
And believe it or not, you’ll be able to calculate the speed of microwaves, and the speed
of light! You’ll also see from this of course, why it is that microwave ovens have those
turntables to move the food through those antinode hot spots to heat it more evenly.
We have a more high‐tech way to measure the speed of light directly, as well, with this
equipment. On the left we have a precision, high speed oscilloscope. In the center; a
speed of light module kit; on the right side, a spool of 20 meters of fiber optic cable‐ it
looks like wire, but it’s actually plastic fiber. Here we have a little light emitting diode
that gives off very brief, very rapid pulses of light. If you looked inside the hole, here,
you’d see a steady red light because it happens too fast for us to see.
The light travels out of here, around and around and around this fiber optic cable‐ 20
meters of cable, a little more than 60 feet of cable, comes back in here, where if you
see, by a photo transistor. All this circuitry just runs these two devices here. These
wires bring the signals over to the oscilloscope.
On the oscilloscope, the top track shows the pulse as being sent out, and the bottom
track or graph shows the pulse being received. There will be a picture of this in the
instructions on Learn, and from that you’ll be able to measure the time delay between
here and here. That’s the time it took for light to travel 20 meters. It’s amazing we can
measure something as fast as light going in such a short distance as 20 meters, just
amazing!
macaulay.cuny.edu
Kent State University
Act IIILab 8 Lab 8
Measuring the speed of light
The idea: Part 1 of this lab is short and sweet – literally! Part 2 is not bad either.
There is something special about the speed of ligh ...
The temperature is the measure of warmth or coldness of an object or substance with reference to some standard value. Temperature is most often measured with a mercury thermometer up to a particular range. But in industrial purpose, product generation requires very high temperatures. For measuring and controlling the temperature, normal thermometers are not sufficient. In such cases, temperatures of materials can be measured and controlled by using LabVIEW and temperature measuring devices. Merging of LabVIEW programming with the temperature interfacing devices provides a flexible platform for creating sophisticated measurement and control systems.
Experimental study of the effects of tilt, shading, and temperature on photov...Colin Moynihan
The effect of tilt, temperature, and shading on the performance of PV panels was investigated. Dataloggers were used for real-time collection of solar radiation, temperature and power output data. Through the analysis of the PV panel design and collected data, optimal environmental conditions were determined.
Theory and Design for Mechanical Measurements solutions manual Figliola 4th edDiego Fung
Figliola and Beasley’s 6th edition of Theory and Design for Mechanical Measurements provides a time-tested and respected approach to the theory of engineering measurements. An emphasis on the role of statistics and uncertainty analysis in the measuring process makes this text unique. While the measurements discipline is very broad, careful selection of topical coverage, establishes the physical principles and practical techniques for quantifying many engineering variables that have multiple engineering applications.
In the sixth edition, Theory and Design for Mechanical Measurements continues to emphasize the conceptual design framework for selecting and specifying equipment, test procedures and interpreting test results. Coverage of topics, applications and devices has been updated—including information on data acquisition hardware and communication protocols, infrared imaging, and microphones. New examples that illustrate either case studies or interesting vignettes related to the application of measurements in current practice are introduced.
PROTECTION OF ELECTRICAL EQUIPMENT USING 3D THERMOGRAPHY AND IMAGE PROCESSINGEklavya Sharma
This paper revolves around a thermal imaging technology that enhance the perception and awareness towards the objects we see around us. Here, we are using this technology for the protection and defect detections of electrical power equipment. Starting from the origin of infrared we will go through the development and research on thermography. Then, it is followed by the real-time 3 dimensional thermography using Matlab and thermal imaging camera. Then the systematic procedures for the temperature measurement thereby detecting the faults in the electrical power equipment using 3D thermography. And then taking the corrective action by guiding the automation software’s according to the temperature signatures of the devices. In addition, this paper presents the outline of the previous researches related to the project.
How to Add Chatter in the odoo 17 ERP ModuleCeline George
In Odoo, the chatter is like a chat tool that helps you work together on records. You can leave notes and track things, making it easier to talk with your team and partners. Inside chatter, all communication history, activity, and changes will be displayed.
Electromagnetic Levitation (control project)Salim Al Oufi
This project is about controlling the position of a magnetic ball by using PID controller. The ball position controlled by changing the magnetic field from the solenoid. Sensors give a feedback of the position of the magnetic ball. This is the simplest description for this paper.
Transcript PHY 21041 Lab 8 Hi again! Well back in Lab 4, y.docxturveycharlyn
Transcript: PHY 21041 Lab 8
Hi again! Well back in Lab 4, you measured the speed of sound in two different ways.
That’s quite an accomplishment because sound travels as fast as a bullet or a jet plane.
In this lab, your mission‐ should you decide to accept it‐ is to measure the speed of light!
Light‐ about a million times faster than sound. And it may sound crazy, but one way to
do that‐to measure the speed of light‐ is to use a microwave safe plate, and uh,
marshmallows, or chocolate chips, or a candy car. This one fell over. I’ll just eat.
Okay, not the speed of light, exactly, but of microwaves, a cousin of light. Use an
ordinary microwave oven, take out the tray inside and the roller mechanism, so it won’t
rotate, put the plate of marshmallows or chocolate inside, set it for about thirty seconds
or so and let it run. What you’ll see when you take the plate out, is little melted spots in
the marshmallows or chocolate. They correspond to the locations of the antinode of
the standing wave inside the oven. You want to measure the distance in centimeters
between those hot spots as accurately as you can, then follow the directions in Learn.
And believe it or not, you’ll be able to calculate the speed of microwaves, and the speed
of light! You’ll also see from this of course, why it is that microwave ovens have those
turntables to move the food through those antinode hot spots to heat it more evenly.
We have a more high‐tech way to measure the speed of light directly, as well, with this
equipment. On the left we have a precision, high speed oscilloscope. In the center; a
speed of light module kit; on the right side, a spool of 20 meters of fiber optic cable‐ it
looks like wire, but it’s actually plastic fiber. Here we have a little light emitting diode
that gives off very brief, very rapid pulses of light. If you looked inside the hole, here,
you’d see a steady red light because it happens too fast for us to see.
The light travels out of here, around and around and around this fiber optic cable‐ 20
meters of cable, a little more than 60 feet of cable, comes back in here, where if you
see, by a photo transistor. All this circuitry just runs these two devices here. These
wires bring the signals over to the oscilloscope.
On the oscilloscope, the top track shows the pulse as being sent out, and the bottom
track or graph shows the pulse being received. There will be a picture of this in the
instructions on Learn, and from that you’ll be able to measure the time delay between
here and here. That’s the time it took for light to travel 20 meters. It’s amazing we can
measure something as fast as light going in such a short distance as 20 meters, just
amazing!
macaulay.cuny.edu
Kent State University
Act IIILab 8 Lab 8
Measuring the speed of light
The idea: Part 1 of this lab is short and sweet – literally! Part 2 is not bad either.
There is something special about the speed of ligh ...
The temperature is the measure of warmth or coldness of an object or substance with reference to some standard value. Temperature is most often measured with a mercury thermometer up to a particular range. But in industrial purpose, product generation requires very high temperatures. For measuring and controlling the temperature, normal thermometers are not sufficient. In such cases, temperatures of materials can be measured and controlled by using LabVIEW and temperature measuring devices. Merging of LabVIEW programming with the temperature interfacing devices provides a flexible platform for creating sophisticated measurement and control systems.
Experimental study of the effects of tilt, shading, and temperature on photov...Colin Moynihan
The effect of tilt, temperature, and shading on the performance of PV panels was investigated. Dataloggers were used for real-time collection of solar radiation, temperature and power output data. Through the analysis of the PV panel design and collected data, optimal environmental conditions were determined.
Theory and Design for Mechanical Measurements solutions manual Figliola 4th edDiego Fung
Figliola and Beasley’s 6th edition of Theory and Design for Mechanical Measurements provides a time-tested and respected approach to the theory of engineering measurements. An emphasis on the role of statistics and uncertainty analysis in the measuring process makes this text unique. While the measurements discipline is very broad, careful selection of topical coverage, establishes the physical principles and practical techniques for quantifying many engineering variables that have multiple engineering applications.
In the sixth edition, Theory and Design for Mechanical Measurements continues to emphasize the conceptual design framework for selecting and specifying equipment, test procedures and interpreting test results. Coverage of topics, applications and devices has been updated—including information on data acquisition hardware and communication protocols, infrared imaging, and microphones. New examples that illustrate either case studies or interesting vignettes related to the application of measurements in current practice are introduced.
PROTECTION OF ELECTRICAL EQUIPMENT USING 3D THERMOGRAPHY AND IMAGE PROCESSINGEklavya Sharma
This paper revolves around a thermal imaging technology that enhance the perception and awareness towards the objects we see around us. Here, we are using this technology for the protection and defect detections of electrical power equipment. Starting from the origin of infrared we will go through the development and research on thermography. Then, it is followed by the real-time 3 dimensional thermography using Matlab and thermal imaging camera. Then the systematic procedures for the temperature measurement thereby detecting the faults in the electrical power equipment using 3D thermography. And then taking the corrective action by guiding the automation software’s according to the temperature signatures of the devices. In addition, this paper presents the outline of the previous researches related to the project.
How to Add Chatter in the odoo 17 ERP ModuleCeline George
In Odoo, the chatter is like a chat tool that helps you work together on records. You can leave notes and track things, making it easier to talk with your team and partners. Inside chatter, all communication history, activity, and changes will be displayed.
Biological screening of herbal drugs: Introduction and Need for
Phyto-Pharmacological Screening, New Strategies for evaluating
Natural Products, In vitro evaluation techniques for Antioxidants, Antimicrobial and Anticancer drugs. In vivo evaluation techniques
for Anti-inflammatory, Antiulcer, Anticancer, Wound healing, Antidiabetic, Hepatoprotective, Cardio protective, Diuretics and
Antifertility, Toxicity studies as per OECD guidelines
This presentation includes basic of PCOS their pathology and treatment and also Ayurveda correlation of PCOS and Ayurvedic line of treatment mentioned in classics.
A Strategic Approach: GenAI in EducationPeter Windle
Artificial Intelligence (AI) technologies such as Generative AI, Image Generators and Large Language Models have had a dramatic impact on teaching, learning and assessment over the past 18 months. The most immediate threat AI posed was to Academic Integrity with Higher Education Institutes (HEIs) focusing their efforts on combating the use of GenAI in assessment. Guidelines were developed for staff and students, policies put in place too. Innovative educators have forged paths in the use of Generative AI for teaching, learning and assessments leading to pockets of transformation springing up across HEIs, often with little or no top-down guidance, support or direction.
This Gasta posits a strategic approach to integrating AI into HEIs to prepare staff, students and the curriculum for an evolving world and workplace. We will highlight the advantages of working with these technologies beyond the realm of teaching, learning and assessment by considering prompt engineering skills, industry impact, curriculum changes, and the need for staff upskilling. In contrast, not engaging strategically with Generative AI poses risks, including falling behind peers, missed opportunities and failing to ensure our graduates remain employable. The rapid evolution of AI technologies necessitates a proactive and strategic approach if we are to remain relevant.
A workshop hosted by the South African Journal of Science aimed at postgraduate students and early career researchers with little or no experience in writing and publishing journal articles.
How to Build a Module in Odoo 17 Using the Scaffold MethodCeline George
Odoo provides an option for creating a module by using a single line command. By using this command the user can make a whole structure of a module. It is very easy for a beginner to make a module. There is no need to make each file manually. This slide will show how to create a module using the scaffold method.
Macroeconomics- Movie Location
This will be used as part of your Personal Professional Portfolio once graded.
Objective:
Prepare a presentation or a paper using research, basic comparative analysis, data organization and application of economic information. You will make an informed assessment of an economic climate outside of the United States to accomplish an entertainment industry objective.
MATATAG CURRICULUM: ASSESSING THE READINESS OF ELEM. PUBLIC SCHOOL TEACHERS I...NelTorrente
In this research, it concludes that while the readiness of teachers in Caloocan City to implement the MATATAG Curriculum is generally positive, targeted efforts in professional development, resource distribution, support networks, and comprehensive preparation can address the existing gaps and ensure successful curriculum implementation.
A review of the growth of the Israel Genealogy Research Association Database Collection for the last 12 months. Our collection is now passed the 3 million mark and still growing. See which archives have contributed the most. See the different types of records we have, and which years have had records added. You can also see what we have for the future.
1. ScienceData Collection For the Interactive White Board Using a Variety of Sensors and a Vernier Go! Link USB Computer Interface
2. This session will show you how to connect a Go! Link or other computer interface to temperature, pressure, voltage, light , motion, and magnetic field sensors for data collection. Light Pressure Voltage Motion Stainless Steel Temperature Magnetic Field Temperature
7. Go! Motion ($99)Vernier Go! Link USB Interface Go! Products Demo: http://www.vernier.com/go/index.html
8. Using a Magnetic Field Sensor Which part of the magnet has the greatest magnetic field strength? What will happen to the strength of the magnetic field as the magnet is pulled away from the sensor?
11. What other forces behave this way?Actual graph of Distance (cm) and Magnetic Field Strength (mT)
12. A Light Sensor can be used to conduct a similar experiment to show that light intensity vs. distance follows the inverse square law. Light Intensity = 1/d2.If you could make a graph of distance from the center of earth vs. gravity it would also show an inverse square. This lab activity is found in : Physical Science with Vernier By Donald L. Volz and Sandy Sapatka The link below has directions for the lab activity. “How Bright is the Light?” http://www2.vernier.com/sample_labs/PSV-25-COMP-how_bright_is_light.pdf
13. Use a gas pressure sensor and a syringe to see what happens to the pressure as you decrease the volume of air in the syringe. Try this experiment!
14. Measuring the voltage of a Lemon Battery http://www2.vernier.com/sample_labs/PSV-33-COMP-lemon_juice.pdf This lab activity can be found in Physical Science with Vernier By Donald L. Volz and Sandy Sapatka
20. Why does the graph stop rising at 100 degrees Celsius?This lab activity is found in Physical Science with VernierBy Donald L. Volz and Sandy Sapatka http://www2.vernier.com/sample_labs/PSV-02-COMP-boiling_temperature.pdf
21. 6. Tell what you think is happening in this graph?
22. The Motion Detector can be used with a LabPro which connects to the computer through a USB port. http://www2.vernier.com/sample_labs/PSV-36-COMP-velocity.pdf
23. This graph using Logger Pro shows position/time for a battery powered car. The slope of the line is the velocity. Notice extra analysis features in Logger Pro. This graph shows velocity/time for the same toy car. The slope of the line is the acceleration.
