UNIBIOSYS Laboratories (UBL) has started with a finishing school concept to bridge the gap between Academics & Industries. Unibiosys laboratories imparts training in various Biotech courses with the state of art technology Research centre, having both dry and wet labs, facilitating the students to equip themselves with the latest and advanced technological courses, specifically oriented to the needs of the industry. UNIBIOSYS Laboratories (UBL), now welcomes the applications for short-term/ long- term academic research projects, training and coursewares. Therefore we request you to be a part for the promotion of scientific knowledge in modern biotechnology. For registration to courses/training/research projects, please contact, UNIBIOSYS Laboratories (UBL), Palace Building, Opp. T.V.S, South.Kalamassery, Cochin, Kerala- 683 104. E-mail: unibiosyslab@gmail.com, bineeshskariah@yahoo.co.in Web: www.unibiosyslab.com
ABOUT ME..!
- SUDEEP REDDY
- HYDERABAD, ANDHRAPRADESH, India
- DID M.TECH(BIOMEDICAL ENGINEERING)IN NIT ROURKELA,ORISSA.
Monday, March 1, 2010
BAMU Conference on Biotechnology for Better Tomorrow | BTBT-2011
International Conference on “Biotechnology for Better Tomorrow | BTBT-2011
February 6-9, 2011 and15 th Convention of The Microbiologists Society
Organized by
February 6-9, 2011 and15 th Convention of The Microbiologists Society
Organized by
The Department of Microbiology
Dr. Babasaheb Ambedkar Marathwada University
Aurangabad, Maharashtra
Venue: Dr. Babasaheb Ambedkar Marathwada University, Aurangabad, Maharashtra, India
Dr. Babasaheb Ambedkar Marathwada University
Aurangabad, Maharashtra
Venue: Dr. Babasaheb Ambedkar Marathwada University, Aurangabad, Maharashtra, India
Theme
All topics related to Microbial biotechnology will be discussed in the conference. Agriculture, Soil, Forest microbial biotechnology, Aquatic biotechnology. Geomicrobiology, Food biotechnology ,Pharmaceutical biotechnology ,Bioinformatics in biotechnology, Veterinary biotechnology, Environmental biotechnology, Industrial biotechnology, Medical biotechnology, Nanobiotechnology, Biological and biomedical imaging, Biomedical computational drug discovery, Microbioreactors, Biomimetic Bioremediation, Bioleaching, Biosensor, Biodiversity , Marine Microbiology, Plant pathology, Microbial Physiology, Metabolism and Gene Expression, Antimicrobial Surfaces, Antimicrobial toxins ,Biofilms ,Microarrays in Microbiology , Microbial Production of Chemicals and Pharmaceuticals, Single-cell analysis of microbes, Biotechnology and Policy, Biotechnology and biodiversity, Biotechnology and patents, Space biotechnology. and other microbial biotechnology related topics.
Important Dates
Submission of abstract : October 30, 2010
Registration at Normal rates: November 30, 2010
Booking of accommodation : November 30, 2010
BTBT 2011 Website
Registration at Normal rates: November 30, 2010
Booking of accommodation : November 30, 2010
BTBT 2011 Website
JUIT BTech/MTech Biotech/Bioinformatics Admissions 2010
Jaypee Institute Of Information Technology, Noida, UP Jaypee University Of Information Technology, Waknaghat, HP
Jaypee Institute Of Engineering & Technology, Guna, MP
Admission To BTech Programmes In ECE, CSE, IT, Biotech, Bioinformatics, Civil Engineering, Chemical Engineering ,Mechanical Engineering, 5 Year Dual Degree Programmes B Tech-M Tech (CSE), B. Tech-MTech (Biotech) and 6 Year Dual Degree Program B. Pharma-M. Pharma Practice Through Overall AIEEE Merit (For Students with Physics & Maths at 10+2 level)
The admissions to the above programs are made on the basis of merit in all India overall AIEEE Rank . Candidates must therefore appear in the AIEEE examination conducted by the CBSE. Further, the candidates must fill in separate application form for admission for which instructions shall be available along with the application forms or uploaded on the website. A candidate appearing for AIEEE but not applying to the institutes on the prescribed Application Form shall not be eligible to be considered for admission in the above programs. Forms are generally made available at Selected Branches of nominated banks as given in the advertisement and loaded on web site. Last date of submission of forms is specified in the advertisement, which generally is one day prior to the conduct of AIEEE exam.
Important Dates:
Issue of Application Forms : Monday 22"d February 2010
Last Date of Receipt of AIEEE based Application Forms : Saturday 24th April 2010 .
Candidates must note that:
• It is mandatory to write AIEEE- Roll number before submission of application form. Applications received without the AIEEE Roll Number shall be rejected and Candidate shall have no claim for the Merit list.
• Candidates are required to ensure the completed Application Form reaches on or before the last date Applications received after the last date will not be accepted and Candidate shall have no claim for the Merit list.
• The candidates who procure the brochure and application form after payment of Rs 800/- are not required to make any further payment while submitting the application form.
• The completed Application Form must be sent at the following address;
The Registrar
Jaypee Institute of Information Technology
A-10, Sector-62
Noida – 201307 (U.P), India
Tel: 0120-2400973-976
E-mail: registrar@jiit.ac.in
Eligibility:
Eligibility Criteria for All Programs (Except for Biology/Biotechnology based admission to Biotechnology, Bioinformatics and B. Pharm-M. Pharm Practice programs)
Criteria of subjects in 10+2 exam:
The minimum academic qualification for admission to any one of the programs is as laid down by AIEEE*. The candidate should have a pass in the 10+2 or its equivalent** with Physics and Mathematics as compulsory subjects and any one of Chemistry, Biology, Biotechnology, Computer Science as optional subjects.
Institutes Programs
Jaypee Institute of Information Technology (Jiit), Noida ECE, CSE, IT, Biotechnology, 5 YR Dual Degree B. Tech-M. Tech (BIOTECH), 5 YR Dual Degree B. Tech-M. Tech (CSE)
Jaypee University of Information Technology (Juit), Waknaghat ECE, CSE, IT, Biotechnology, Bioinformatics, Civil Engineering, 5 YR Dual Degree B. Tech-M. Tech (BIOTECH), 6 YR Dual Degree B. Pharm-M. Pharm Practice
Jaypee Institute of Engineering & Technology (Jiet), Guna ECE, CSE, Chemical Engineering, Civil Engineering, Mechanical Engineering
The last date for receiving the completed application form is generally one day prior to the AIEEE exam date.
Candidates are required to ensure that the completed application / or Demand Draft along with printout of online application Form is received before the last date.
• Challenging and intellectually stimulating academic environment
• State-of-the-art high-tech, innovative and modern infrastructure
• A learner-centric educational process
• Flexible system providing students the freedom to learn
• Ability to explore new technologies through B.Tech, Dual Degree, M.Tech and Ph.D. programs
• Enthusiastic industry relationship for placement and collaborative work • Fully backed and supported by the
Rs. 7,500 crore Jaypee Group
For Admission Details and downloading the application form visit our websites: www.jiit.ac.in, www.juit.ac.in and www.jiet.ac.in
#BT, BI AND DUAL DEGREE PHARMACY PROGRAMS ONLY (as offered) :
50% of seats are reserved for Physics and Mathematics students (through AIEEE ranking) and balance for Biology/Biotechnology based students with Physics and Biology/Biotechnology (such students may apply directly to the JIIT and/or JUIT) – Last Date of Receipt of Application Forms for BT, BI and DD Pharmacy Programs (Biology/Biotechnology based) : Saturday 29th May, 2010.
ADMISSION ADVERTISEMENT
DOWNLOAD BROCHURE
ADMISSION PROCEDUR
DOWNLOAD APPLICATION FORMS (JUIT & JIIT)
Last Date of Receipt of AIEEE based Application Forms : Saturday 24th April 2010 .
Candidates must note that:
• It is mandatory to write AIEEE- Roll number before submission of application form. Applications received without the AIEEE Roll Number shall be rejected and Candidate shall have no claim for the Merit list.
• Candidates are required to ensure the completed Application Form reaches on or before the last date Applications received after the last date will not be accepted and Candidate shall have no claim for the Merit list.
• The candidates who procure the brochure and application form after payment of Rs 800/- are not required to make any further payment while submitting the application form.
• The completed Application Form must be sent at the following address;
The Registrar
Jaypee Institute of Information Technology
A-10, Sector-62
Noida – 201307 (U.P), India
Tel: 0120-2400973-976
E-mail: registrar@jiit.ac.in
Eligibility:
Eligibility Criteria for All Programs (Except for Biology/Biotechnology based admission to Biotechnology, Bioinformatics and B. Pharm-M. Pharm Practice programs)
Criteria of subjects in 10+2 exam:
The minimum academic qualification for admission to any one of the programs is as laid down by AIEEE*. The candidate should have a pass in the 10+2 or its equivalent** with Physics and Mathematics as compulsory subjects and any one of Chemistry, Biology, Biotechnology, Computer Science as optional subjects.
Institutes Programs
Jaypee Institute of Information Technology (Jiit), Noida ECE, CSE, IT, Biotechnology, 5 YR Dual Degree B. Tech-M. Tech (BIOTECH), 5 YR Dual Degree B. Tech-M. Tech (CSE)
Jaypee University of Information Technology (Juit), Waknaghat ECE, CSE, IT, Biotechnology, Bioinformatics, Civil Engineering, 5 YR Dual Degree B. Tech-M. Tech (BIOTECH), 6 YR Dual Degree B. Pharm-M. Pharm Practice
Jaypee Institute of Engineering & Technology (Jiet), Guna ECE, CSE, Chemical Engineering, Civil Engineering, Mechanical Engineering
The last date for receiving the completed application form is generally one day prior to the AIEEE exam date.
Candidates are required to ensure that the completed application / or Demand Draft along with printout of online application Form is received before the last date.
• Challenging and intellectually stimulating academic environment
• State-of-the-art high-tech, innovative and modern infrastructure
• A learner-centric educational process
• Flexible system providing students the freedom to learn
• Ability to explore new technologies through B.Tech, Dual Degree, M.Tech and Ph.D. programs
• Enthusiastic industry relationship for placement and collaborative work • Fully backed and supported by the
Rs. 7,500 crore Jaypee Group
For Admission Details and downloading the application form visit our websites: www.jiit.ac.in, www.juit.ac.in and www.jiet.ac.in
#BT, BI AND DUAL DEGREE PHARMACY PROGRAMS ONLY (as offered) :
50% of seats are reserved for Physics and Mathematics students (through AIEEE ranking) and balance for Biology/Biotechnology based students with Physics and Biology/Biotechnology (such students may apply directly to the JIIT and/or JUIT) – Last Date of Receipt of Application Forms for BT, BI and DD Pharmacy Programs (Biology/Biotechnology based) : Saturday 29th May, 2010.
ADMISSION ADVERTISEMENT
DOWNLOAD BROCHURE
ADMISSION PROCEDUR
DOWNLOAD APPLICATION FORMS (JUIT & JIIT)
Sunday, February 28, 2010
COMPLETE SIMPLIFIED TUTORIAL ON XRAYS
- X-rays similar to X-ray visible light photons Both have a component of a moving carrier wavelength electromagnetic energy electromagnetic energy, but the difference between X-ray and visible light rays is the energy level of photons, which is expressed in wavelength radiation wavelength.
- The human eye is sensitive to a particular area of the range within which wave lengths of visible radiation, but they are sensitive to X-ray, which cut into the length of less than visible light and thus energy is higher, and it is not sensitive to radio waves radio waves that have the largest wavelength of visible light and thus less energy.
- The X-ray photons as photons of visible light produced by the movement of electrons in atoms, where electrons occupy these Suiat hat different orbits around the nucleus of an atom, and when moving electron from its orbit to orbit together with a lower cap it frees energy in the form of photons, depends Energy these photons on the difference between Suetin Takitin the first and second electron.
Shocked when the photon point the other atom of this atom absorbs the photon energy through the transfer of electron to the cap along the top. For this to happen must be normal to the photon energy is equal to the difference between the Suetin Takitin of the electron.
- The human eye is sensitive to a particular area of the range within which wave lengths of visible radiation, but they are sensitive to X-ray, which cut into the length of less than visible light and thus energy is higher, and it is not sensitive to radio waves radio waves that have the largest wavelength of visible light and thus less energy.
- The X-ray photons as photons of visible light produced by the movement of electrons in atoms, where electrons occupy these Suiat hat different orbits around the nucleus of an atom, and when moving electron from its orbit to orbit together with a lower cap it frees energy in the form of photons, depends Energy these photons on the difference between Suetin Takitin the first and second electron.
Shocked when the photon point the other atom of this atom absorbs the photon energy through the transfer of electron to the cap along the top. For this to happen must be normal to the photon energy is equal to the difference between the Suetin Takitin of the electron.
Typically, you weave rights atoms absorb photons of various visible light, as the Sueat energy photons of visible light to suit the differences between the different positions of electrons in atoms tissues. While radio waves do not have sufficient energy to transfer electrons between different Sueat energy of atoms, and thus is able to penetrate different objects, as well as also the case in X-rays, but the only difference is that X-rays have very high energy.
X-ray when you can fall on the relatively small atoms to expel the electron atoms, where some X-ray photon energy separation of the electron atom, while the residual energy to pay the electron away from the atom is often unable to absorb photons of X-rays. While the atoms are relatively large X-ray photon absorption, because these atoms have the differences between the high-hat orbits and these differences are roughly equal to the energy X-ray photons.
Diverse tissues in the human body is either made up of small particles and therefore unable to absorb photons of x-ray, may be significant Kdhirat calcium calcium atoms that constitute the infrastructure of the bones and thus is able to absorb photons of X-rays.
X-ray when you can fall on the relatively small atoms to expel the electron atoms, where some X-ray photon energy separation of the electron atom, while the residual energy to pay the electron away from the atom is often unable to absorb photons of X-rays. While the atoms are relatively large X-ray photon absorption, because these atoms have the differences between the high-hat orbits and these differences are roughly equal to the energy X-ray photons.
Diverse tissues in the human body is either made up of small particles and therefore unable to absorb photons of x-ray, may be significant Kdhirat calcium calcium atoms that constitute the infrastructure of the bones and thus is able to absorb photons of X-rays.
Principle simplified X-ray machine in general:
The main part of this device is the X-ray tube glass and airless, and containing the cathode strip is a thread a thin wire is heated by electric current crossing it, where the heat to expel an electron from the surface of the runway.While the positively charged anode elevator is a flat disk of tungsten tungsten. While the positively charged anode elevator is a flat disk of tungsten tungsten.
Applied voltage difference between the lift and runway intended to give the electrons extracted from the runway at high speed toward the elevator, when the shock electron tungsten atom located on the elevator releases the electron together with a low cap of this corn, and replace the electron electron of the same corn, but enjoy doing, cap the top, this process will result in excess free energy in the form of a photon doing, high-hat, is the X-ray photon. Applied voltage difference between the lift and runway intended to give the electrons extracted from the runway at high speed toward the elevator, when the shock electron tungsten atom located on the elevator releases the electron together with a low cap of this corn, and replace the electron electron of the same corn, but enjoy doing, cap the top, this process will result in excess free energy in the form of a photon doing, high-hat, is the X-ray photon.
And also can generate free electrons, photons, without the shock of atoms, where the nuclei of atoms to attract electrons accelerated, where a slowing of the electrons, and change tracks, and thus make the electron at this situation of excess capacity in the form of photons of the X-ray. And also can generate free electrons, photons, without the shock of atoms, where the nuclei of atoms to attract electrons accelerated, where a slowing of the electrons, and change tracks, and thus make the electron at this situation of excess capacity in the form of photons of the X-ray.
Produced by the collision of electrons lift, high temperature, it uses the engine to rotate the lift and protect it from melting. Produced by the collision of electrons lift, high temperature, it uses the engine to rotate the lift and protect it from melting.
Surrounded by the internal structure of the X-ray tube cover prevents the thick gray dispersion X-rays in various directions, and it includes this cover on a small window to allow x-ray photons that come in the form of a narrow package reflects a series of filters filters before falling on the patient’s body. Surrounded by the internal structure of the X-ray tube cover prevents the thick gray dispersion X-rays in various directions, and it includes this cover on a small window to allow x-ray photons that come in the form of a narrow package reflects a series of filters filters before falling on the patient’s body.
Movie show areas exposed to large amounts of radiation opaque color, while showing the areas that were less susceptible to radiation Atoma less, and this explains that the bones appear white on the film being absorbed by the light beam and thus did not reach rays to the film, while showing soft tissue black or gray because it did not absorb radiation and thus reached larger quantities of these rays to the film.Movie show areas exposed to large amounts of radiation opaque color, while showing the areas that were less susceptible to radiation Atoma less, and this explains that the bones appear white on the film being absorbed by the light beam and thus did not reach rays to the film, while showing soft tissue black or gray because it did not absorb radiation and thus reached larger quantities of these rays to the film. تFound on the other side of the patient’s body X-ray camera X-ray camera that use the same technology used in the film regular camera, but the difference here that instigate chemical reactions on the film is X-ray and not visible light, but in the device Digital X-RayWhich we will talk about later is used instead of film sensitive electronic component CCD . Located on the other side of the patient’s body X-ray camera X-ray camera that use the same technology used in the film regular camera, but the difference here that instigate chemical reactions on the film is X-ray and not visible light, but in the the Digital X-Ray which we will talk about later is used instead of a film sensitive electronic CCD.
Surrounded by the internal structure of the X-ray tube cover prevents the thick gray dispersion X-rays in various directions, and it includes this cover on a small window to allow x-ray photons that come in the form of a narrow package reflects a series of filters filters before falling on the patient’s body. Surrounded by the internal structure of the X-ray tube cover prevents the thick gray dispersion X-rays in various directions, and it includes this cover on a small window to allow x-ray photons that come in the form of a narrow package reflects a series of filters filters before falling on the patient’s body.
Movie show areas exposed to large amounts of radiation opaque color, while showing the areas that were less susceptible to radiation Atoma less, and this explains that the bones appear white on the film being absorbed by the light beam and thus did not reach rays to the film, while showing soft tissue black or gray because it did not absorb radiation and thus reached larger quantities of these rays to the film.Movie show areas exposed to large amounts of radiation opaque color, while showing the areas that were less susceptible to radiation Atoma less, and this explains that the bones appear white on the film being absorbed by the light beam and thus did not reach rays to the film, while showing soft tissue black or gray because it did not absorb radiation and thus reached larger quantities of these rays to the film. تFound on the other side of the patient’s body X-ray camera X-ray camera that use the same technology used in the film regular camera, but the difference here that instigate chemical reactions on the film is X-ray and not visible light, but in the device Digital X-RayWhich we will talk about later is used instead of film sensitive electronic component CCD . Located on the other side of the patient’s body X-ray camera X-ray camera that use the same technology used in the film regular camera, but the difference here that instigate chemical reactions on the film is X-ray and not visible light, but in the the Digital X-Ray which we will talk about later is used instead of a film sensitive electronic CCD.
Harmful ultraviolet rays:
The problem of X-rays as ionizing radiation, when the shock rays normal atom it is not able to make changes in the corn, but when the shock X-ray corn is the result of the expulsion of an electron from this atom and converts it to stray, or electrically charged atoms.The problem of X-rays as ionizing radiation, when the shock rays normal atom it is not able to make changes in the corn, but when the shock X-ray corn is the result of the expulsion of an electron from this atom and converts it to stray, or electrically charged atoms. This shipment has caused abnormal chemical reactions inside cells . This shipment has caused abnormal chemical reactions within cells.As it can cause to break the chain DNA Chains This is what is causing the death of the affected series or injury spasmodic, and this is what makes the cells carcinogen, and can be spread this cancer Through the body. They can also cause DNA to break the chains of nuclear DNA Chains and this is what is causing the death of the affected series or her spasmodic, this is what makes the cells carcinogen, and can be spread through the body of this cancer.
. Therefore, doctors used X-ray the economy these days.
But despite these risks, it remains mediated by X-ray scanning the most secure option of direct surgical work, and it is certain that X-ray machine of the most important inventions of our timeBut despite these risks, it remains mediated by X-ray scanning the most secure option of direct surgical work, and it is certain that X-ray machine of the most important inventions of our time.
But despite these risks, it remains mediated by X-ray scanning the most secure option of direct surgical work, and it is certain that X-ray machine of the most important inventions of our timeBut despite these risks, it remains mediated by X-ray scanning the most secure option of direct surgical work, and it is certain that X-ray machine of the most important inventions of our time.
System of Digital X-Ray:
Box plots for the device:
Box plots for the device:
Digital X-Ray equipment different from the traditional system of X-ray image capture and processing, these devices do not contain traditional movies but also contains a section showing an electronic consists mainly of a so-called CCD or Charge Couple Device and is a matrix with large number of elements of the light-sensitive depth of about 30 Maekerfallt level of accuracy and up to 1024 X 1024 Pixel . The device of Digital X-Ray equipment different from the traditional system of X-ray image capture and processing, these devices do not contain traditional movies but also contains a section showing an electronic consists mainly of a so-called CCD or Charge Couple Device and is a matrix with the number of large elements of the light-sensitive depth of about 30 Maekerfallt level of accuracy and up to 1024 X 1024 Pixel.
The element of the CCD
X-ray photons to transfer them to the fallen, generating an electrical signal that these photons electric charge on each element of the matrix as the photon energy, and processed this signal mediated by computer in order to get the image on the display screen control
. Component is the CCD X-ray photons to transfer them to the fallen, generating an electrical signal that these photons electric charge on each element of the matrix as the photon energy, and processed this signal mediated by computer in order to get the image on the display screen control.
This element is the cornerstone of digital photography, whether this imaging cameras mediated ordinary or medical imaging.
This element is the cornerstone of digital photography, whether this imaging cameras mediated ordinary or medical imaging.
عنصر الــ CCD Element of the CCDCharacterized by X-ray digital traditional,
1- better comparison between the tissue-intensive and non-intensive.
2- get faster on the image.
3- the ability to store images.
4- the possibility of modifying images in order to increase accuracy of detection of cancers.
5- The possibility of transfer images easily to remote locations to Internet-mediated medical doctors in distant locations.
2- get faster on the image.
3- the ability to store images.
4- the possibility of modifying images in order to increase accuracy of detection of cancers.
5- The possibility of transfer images easily to remote locations to Internet-mediated medical doctors in distant locations.
But the disadvantage of the digital examination is the high cost compared to traditional examination.
Rate This
WORKING OF NIGHT VISION DEVICES
It is known that the process of vision is done by reflection of visible light rays of the body we are looking at our eyes, which in turn is an image of an object on the retina and the image information transmitted through the optical fiber to the brain to translate body image. Hence, the process of vision depends mainly on the visible light rays, whether of sun or electric light bulbs. For this reason, in the dark can not see things eye to the lack of visible light reflected from the body to the eye.
The question now is how to improve visibility in the dark?
The question now is how to improve visibility in the dark?
To answer this question should shed some light on the electromagnetic spectrum that surrounds us, and colors What we’re saying is a fraction of the electromagnetic spectrum
Each region on the spectrum of electromagnetic energy-depending on the wavelength: the shorter wavelength has higher energy. Consequently the color blue with a shorter wavelength in the visible spectrum has higher energy than red because it has a wavelength greater. The infrared spectrum by the color red and this means that the capacity is less.
Each region on the spectrum of electromagnetic energy-depending on the wavelength: the shorter wavelength has higher energy. Consequently the color blue with a shorter wavelength in the visible spectrum has higher energy than red because it has a wavelength greater. The infrared spectrum by the color red and this means that the capacity is less.
Infrared is divided into three regions, and visible radiation is divided into seven different colors (colors of the spectrum known) and the three areas of the infrared spectrum is:
The area near the infrared Near-infrared, the closest possible to the visible spectrum and with a range from 0.7 microns to 1.3 microns.
Central Mid-infrared Central Region Mid-infrared, a region of the electromagnetic spectrum in the range 1.3 microns to 3 microns. These rays are used in remote controls
X-ray thermal Thermal-infrared Thermal radiation Thermal-infrared, which occupies a greater range of the electromagnetic spectrum from 3 microns to 30 microns. That occupies the largest range of the electromagnetic spectrum from 3 microns to 30 microns.
X-ray thermal Thermal-infrared Thermal radiation Thermal-infrared, which occupies a greater range of the electromagnetic spectrum from 3 microns to 30 microns. That occupies the largest range of the electromagnetic spectrum from 3 microns to 30 microns.
X-ray thermal Thermal-infrared Thermal radiation Thermal-infrared rays are emitted from objects as a result of temperature and is not reflected rays from the objects. Rays are emitted by objects due to temperature, not rays reflected from objects.
And back x-ray thermal emission in the infrared spectrum of exciting the atoms forming the body at temperatures above absolute zero and return to the state of excitement and this is causing to the release of electromagnetic radiation in the infrared region. Since the atoms in the event that a continuous excitation to energy levels higher excited level, and then return to the energy level ground ground-state energy level. When electrons gain energy as a result of corn temperature move to orbits with higher energy and eventually and return to the level of primary energy Ground State absolute power gained in the form of electromagnetic spectrum in the infrared wavelength range from 3 microns to 30 microns according to the degree of excitement .
For example, when heating a spoon to start a flame temperature of the spoon growing, and produces at each temperature emission of infrared (heat) until it reaches the temperature to a certain extent the spoon begins to flare and reddish, and here we have entered in the visual wavelengths because the temperature close to 500 degrees Celsius and maximum flare up when it becomes close to the outstanding color white (more than 1000 degrees Celsius).
Conclude that every object radiates electromagnetic spectrum at temperatures above absolute zero, and the more the temperature increased the degree of excitement and this leads to the emission of electromagnetic spectrum, which is in the infrared at low temperatures and the greater the temperature approached the emitted spectrum to the visible spectrum.
Conclude that every object radiates electromagnetic spectrum at temperatures above absolute zero, and the more the temperature increased the degree of excitement and this leads to the emission of electromagnetic spectrum, which is in the infrared at low temperatures and the greater the temperature approached the emitted spectrum to the visible spectrum.
Hence, based on the idea of night-vision infrared (heat) emitted from objects, and this is what we’ll explain it now ……. Hence, based on the idea of night-vision infrared (heat) emitted from objects, and this is what we’ll explain it now …….
How do night vision devices? How do night vision devices?
How do night vision devices? How do night vision devices?
By the lens system similar to the video camera lens work on a compilation infrared emitted by objects. By the lens system similar to the video camera lens work on a compilation infrared emitted by objects.
Infrared collected fall on an array of sensors sensitive to infrared work on the thermal map of the body called thermogram.
The organs of Aktronip convert the image to the thermogram thermal electrical pulses.
The organs of Aktronip convert the image to the thermogram thermal electrical pulses.
Unit signal processing signal-processing unit to translate the image taken from the thermal sensors to the information for display on the screen.
Send a signal processing unit and signal-processing unit information to the screen in the form of colored areas reflect the temperature and all the information collected the image. There are two types of night vision devices, one operating at room temperature, known as the Un-cooled and can detect differences in temperature of up to 0.2 degrees Celsius, the most prevalent. The other type operates under temperatures below room temperature and to cool it, known as the Carnival Cryogenically cooled a price and can detect differences in temperature of up to 0.1 degrees Celsius, and for distances up to 300 meters.
Types of night vision devices
Types of night vision devices
Can be divided into night-vision gear into three sections:
Telescope Scopes, machines that prove the weapons to hit the targets night or hand-held for the transition from night vision to normal vision.
Spyglass Goggles, which are often mounted on the head and used to roam through which during the night. Cameras it looks like a traditional video, but rely on imaging by infrared and in aircraft or control the buildings.
Uses night-vision gear: Uses night-vision gear:
Spyglass Goggles, which are often mounted on the head and used to roam through which during the night. Cameras it looks like a traditional video, but rely on imaging by infrared and in aircraft or control the buildings.
Uses night-vision gear: Uses night-vision gear:
Night-vision gear for many applications such as applications in the areas of military and criminal research and Night Safari in the search for the missing things in the entertainment and protection systems and control.
It should be noted that the first and most important applications of night-vision gear are the military uses to spy on the movements of the opponent and equipment during the night, as used by men in the control of their buildings of thieves and aggressors. criminal investigations in the study of movements of the thieves from the thermal effects left by their feet on the ground and the duration of abuse and follow-up the loot and other .
TRUTH OF BIOMEDICAL ENGINEERING (FROM A WORKING BIOMEDICAL ENGINEER)
In our country, job opportunities in biomedical engineering is very very very much, and even growing every day, and wages are also good, and is either:
1 – sales (sales or delegate as an business selling medical equipment)
2 – maintenance
3 – Engineering and hospital equipment
1 – sales (sales or delegate as an business selling medical equipment)
2 – maintenance
3 – Engineering and hospital equipment
Sales have nothing to do engineering, sufficient to know the simple commodity being sold, a study of the local market and the global study of customer requirements, knowledge of the art of marketing and sales, suit with tie, Computers with Englishman …… Sales have nothing to do engineering, sufficient to know the simple commodity being sold, a study of the local market and the global study of customer requirements, knowledge of the art of marketing and sales, suit with tie, Computers with Englishman …. .. And Guide: And directory:
1 – noticed that most of the salespeople and owners of medical equipment companies in our country are not even engineers. 1
2 – If you find an engineer working in medical sales, ask him about what had learned from what he learned at the university will say nothing, Sawa I know that this device exists and work well.
But the good thing in this area, is the enormous profits generated by trade in medical equipment and this is what drives many of the selected discipline at the university. But the good thing in this area, is the enormous profits generated by trade in medical equipment and this is what drives many of the selected discipline at the university.
1 – noticed that most of the salespeople and owners of medical equipment companies in our country are not even engineers. 1
2 – If you find an engineer working in medical sales, ask him about what had learned from what he learned at the university will say nothing, Sawa I know that this device exists and work well.
But the good thing in this area, is the enormous profits generated by trade in medical equipment and this is what drives many of the selected discipline at the university. But the good thing in this area, is the enormous profits generated by trade in medical equipment and this is what drives many of the selected discipline at the university.
For maintenance …… For maintenance …… They practice. They practice. Learned a lot of things at the university related to maintenance, but many have not learned, or Tamlnah only theoretical, and practical application is very different from theoretical application, the good thing is to work with something that I learned in engineering, and bad this area is low salaries (although they good) compared to the field sales and engineer of the need for adequate training before becoming experienced in this area. Learned a lot of things at the university related to maintenance, but many have not learned, or Tamlnah only theoretical, and practical application is very different from theoretical application, the good thing is to work with something that I learned in engineering, and bad this area is low salaries (although they good) compared to the field sales and engineer of the need for adequate training before becoming experienced in this area.
Engineering hospitals: books and equipment and conditions and technical advice for the offers from time to time or matters of engineering ….. Perhaps it is the best or the only application (after maintenance) of medical engineering in our country, very high efficiency, but bad this area is the lack of his presence. Perhaps it is the best or the only application (after maintenance) of medical engineering in our country, very high efficiency, but bad this area is the lack of his presence.
I do not deny, of course there are many problems such as lack of manufacturers (possible to be achieved in the future), practically non-existent at the university (and therefore the need to engineer training long enough when entering maintenance) ……. I do not deny, of course there are many problems such as lack of manufacturers (possible to be achieved in the future), practically non-existent at the university (and therefore the need to engineer training long enough when entering maintenance)
BIOMEDICAL ENGINEER JOBS AT VARANASI,UTTAR PRADESH
Experience:
5 – 10 Years
Location: Varanasi
Compensation:Rupees 1,25,000 – 1,75,000
Education:
UG – B.Tech/B.E. – Biomedical PG – Post Graduation Not Required
Industry Type:
Medical/ Healthcare/Hospital
Role:
Bio-Tech Research Mgr
Functional Area:
Healthcare, Medical, R&D
Desired Candidate Profile B.Tech/Diploma in Bio Medical Engineering or B. Tech/Diploma in Electronics and communication with 5-10 years experience of handling hospital eqpts
Job Description :B.Tech/Diploma in Bio Medical Engineering or B. Tech/Diploma in Electronics and communication with 5-10 years experience of handling hospital eqpts
Company Profile :A Tertiary care multi disciplinary super speciality 150 bedded hospital at Varanasi with State of the Art facilities.
Contact Details
Company Name:
Heritage Hospitals Ltd.
Website :
http://www.heritagehospitals.in
Executive Name:
Brig (Dr) PN Singh (Retd)
Address:
Heritage Hospitals Ltd
Lanka
VARANASI,Uttar Pradesh,India 221005
Email Address:
infohhl@gmail.com
Telephone:
91-542-2368888
5 – 10 Years
Location: Varanasi
Compensation:Rupees 1,25,000 – 1,75,000
Education:
UG – B.Tech/B.E. – Biomedical PG – Post Graduation Not Required
Industry Type:
Medical/ Healthcare/Hospital
Role:
Bio-Tech Research Mgr
Functional Area:
Healthcare, Medical, R&D
Desired Candidate Profile B.Tech/Diploma in Bio Medical Engineering or B. Tech/Diploma in Electronics and communication with 5-10 years experience of handling hospital eqpts
Job Description :B.Tech/Diploma in Bio Medical Engineering or B. Tech/Diploma in Electronics and communication with 5-10 years experience of handling hospital eqpts
Company Profile :A Tertiary care multi disciplinary super speciality 150 bedded hospital at Varanasi with State of the Art facilities.
Contact Details
Company Name:
Heritage Hospitals Ltd.
Website :
http://www.heritagehospitals.in
Executive Name:
Brig (Dr) PN Singh (Retd)
Address:
Heritage Hospitals Ltd
Lanka
VARANASI,Uttar Pradesh,India 221005
Email Address:
infohhl@gmail.com
Telephone:
91-542-2368888
Subscribe to:
Comments (Atom)
Posts
