Weswox Is The Leading Supplier Manufacturer Exporter Of WESWOX INVERTED FLUORESCENT MICROSCOPE Based In Ambala India. We Are One Of The Leading Manufacturers And Suppliers Of Centrifuge Machines, Pathological Instruments.
Reflecting Innovations in
Optical Design, Mechanical engineering, & illumination concepts,
BXLi is a versatile & fully
extendable Research microscope system
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The document summarizes the technical specifications of the BXLi DG digital microscope. It has an infinity corrected optical system with a 30 degree inclined binocular head that can rotate 360 degrees and accommodate eyepieces up to 20mm field of view. The microscope is equipped with a 5 megapixel CMOS camera for high resolution imaging and capture. Eyepieces, objectives, nosepiece, stage, focusing, condenser, and illumination systems are also described.
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Weswox Is The Leading Supplier Manufacturer Exporter Of WESWOX ADVANCE RESEARCH BINOCULAR CLINICAL MICROSCOPE Based In Ambala India. We Are One Of The Leading Manufacturers And Suppliers Of Centrifuge Machines.
Reflecting Innovations in
Optical Design, Mechanical engineering, & illumination concepts,
BXLi is a versatile & fully
extendable Research microscope system
Weswox Is The Leading Supplier Manufacturer Exporter Of WESWOX MONOCULAR MICROSCOPE Based In Ambala India. We Are One Of The Leading Manufacturers And Suppliers Of Centrifuge Machines.
Weswox Is The Leading Supplier Manufacturer Exporter Of WESWOX BINOCULAR RESEARCH MICROSCOPE Based In Ambala India. We Are One Of The Leading Manufacturers And Suppliers Of Centrifuge Machines.
The document summarizes the technical specifications of the BXLi DG digital microscope. It has an infinity corrected optical system with a 30 degree inclined binocular head that can rotate 360 degrees and accommodate eyepieces up to 20mm field of view. The microscope is equipped with a 5 megapixel CMOS camera for high resolution imaging and capture. Eyepieces, objectives, nosepiece, stage, focusing, condenser, and illumination systems are also described.
Weswox Is The Leading Supplier Manufacturer Exporter Of WESWOX LIFE Science Research Microscope Based In Ambala India. We Are One Of The Leading Manufacturers And Suppliers Of Centrifuge Machines, Pathological Instruments.
Weswox Is The Leading Supplier Manufacturer Exporter Of WESWOX ADVANCE RESEARCH BINOCULAR CLINICAL MICROSCOPE Based In Ambala India. We Are One Of The Leading Manufacturers And Suppliers Of Centrifuge Machines.
BUM270FLED Series LED fluorescence microscopes are newly developed microscopes, the microscopes use LED as the fluorescent light source, the life span of the LED lamp is much longer than mercury lamp, the performance is also better.
The MF31 series fluorescence microscope from Guangzhou Micro-shot Technology Co., Ltd. is a single or multi-color microscope that provides bright field and fluorescence capabilities. It uses LED illumination for both transmitted light and up to three-color fluorescence excitation. Key features include an infinity optical system, trinocular observation tube, interchangeable objectives from 4x to 100x, mechanical stage, focus controls, and optional cameras. Applications include tuberculosis diagnosis, dermatology, education, and research using stains such as GFP, FITC, and DAPI.
Weswox Is The Leading Supplier Manufacturer Exporter Of WESWOX ADVANCE RESEARCH BINOCULAR CLINICAL MICROSCOPE Based In Ambala India. We Are One Of The Leading Manufacturers And Suppliers Of Centrifuge Machines.
MF31-RB LED fluorescence microscope is used to for tuberculosis sputum slide quick diagnose, such as Zeiss iLED function. Offer 420nm~480nm excitation for Auramine O fluorescein.
MF31-UV is a fluorescence microscope with UV LED light source offer 330~380nm excitation, good to use for DAPI stained silde, such as fungus diagnostic.
Weswox Is The Leading Supplier Manufacturer Exporter Of WESWOX FLUORESCENCE MICROSCOPE Based In Ambala India. We Are One Of The Leading Manufacturers And Suppliers Of Centrifuge Machines, Pathological Instruments.
Educational compound microscope comes with siedentopf type binocular viewing head. With the help of coarse and fine focusing adjustment,
LED source of illumination, it is possible to obtain clear and sharp images of the specimen.
It is specially designed for examination & demonstration purpose. It can be used for advanced applications in schools and colleges.
Cytotoxic Safety Cabinet comes with Safety Height 200 mm (8 inches) of test opening, 440 mm (17 inches) of maximum opening, 465 m3/h (273 cfm) of exhaust
volume and 0.73m3 of internal work area. Maintaining cleanliness within the work zone for patient safety and product cleanliness.
The BQ 900 stands for excellent optics, versatility and ease-of-use. It is recognised as the standard for those requiring advanced slit lamp microscopy.
A modular system, offering digital video and still photography and a wide range of accessories include teaching scopes, inclined eyepieces and, for retinal specialists, the unique stereo variator.
Weswox Is The Leading Supplier Manufacturer Exporter Of WESWOX LIFE SCIENCE RESEARCH MICROSCOPE Based In Ambala India. We Are One Of The Leading Manufacturers And Suppliers Of Centrifuge Machines, Pathological Instruments.
Weswox Is The Leading Supplier Manufacturer Exporter Of WESWOX LIFE SCIENCE RESEARCH MICROSCOPE Based In Ambala India. We Are One Of The Leading Manufacturers And Suppliers Of Centrifuge Machines, Pathological Instruments.
Weswox Is The Leading Supplier Manufacturer Exporter Of WESWOX Research Fluorescent Microscope Based In Ambala India. We Are One Of The Leading Manufacturers And Suppliers Of Centrifuge Machines, Pathological Instruments.
The document provides an overview of the slit lamp biomicroscope, a microscope used to examine the eye. It describes the history, development, parts, optics, and various illumination techniques of the slit lamp. The slit lamp allows a magnified three-dimensional view of the eye for documentation and quantitative measurements. Examination with the slit lamp involves using different illumination methods like diffuse, direct, indirect, and retro-illumination to view different structures of the eye. Proper technique and understanding of slit lamp use is important for quality eye examinations.
Inverted biological microscope is Capture detailed images and observe specimens with exceptional clarity and precision. Perfect for research, education, and professional use.
Weswox Is The Leading Supplier Manufacturer Exporter Of WESWOX EPI-FLUORESCENCE MICROSCOPE Based In Ambala India. We Are One Of The Leading Manufacturers And Suppliers Of Centrifuge Machines, Pathological Instruments.
The slit lamp allows examination of the anterior segment of the eye and provides magnified views. It has three main components: an illumination system using a slit beam of light, an observation system with microscope, and a mechanical system. Different illumination techniques like diffuse, direct, retroillumination are used to examine various structures. The slit lamp is used for diagnostic evaluation of many anterior segment diseases and procedures like gonioscopy, pachymetry and contact lens fitting. It provides detailed examination of structures like cornea, iris, angle and anterior chamber.
. Introduction Biomicroscope derives its name from the fact that it enables the practitioner to observe the living tissue of eye under magnification. It not only provides magnified view of every part of eye but also allows quantitative measurements and photography of every part for documentation.
3. • The lamp facilitates an examination which looks at anterior segment, or frontal structures, of the human eye, which includes the –Eyelid –Cornea –Sclera –Conjunctiva –Iris –Aqueous –Natural crystalline lens and –Anterior vitreous.
4. Important historical landmarks De Wecker 1863 devised a portable ophthalmomicroscope . Albert and Greenough 1891,developed a binocular microscope which provided stereoscopic view. Gullstrand ,1911 introduced the illumination system which had for the first time a slit diapharm in it Therefore Gullstrand is credited with the invention of slit lamp.
The slit lamp biomicroscope allows examination of the anterior segment of the eye at high magnification. It consists of an illumination system using a bright slit of light and an observation system using a binocular microscope. Different illumination techniques such as diffuse, direct, and retroillumination can be used to examine different structures. The slit lamp provides important information for diagnosing eye diseases and has been improved since its invention over 100 years ago to include features like variable magnification and filters. It remains a vital tool for comprehensive eye examinations.
The document describes a capsule camera, also known as capsule endoscopy. It provides a brief history of endoscopy and describes how the capsule camera was invented in 2000. The summary provides an overview of the key components of the capsule camera, including a CMOS image sensor, batteries, transmitter, and antenna. It also describes how the capsule camera works, taking images as it passes through the digestive tract that are transmitted to an external recorder. The summary concludes by mentioning some of the advantages of capsule cameras, such as being painless and providing accurate images of the small intestine.
Weswox Is The Leading Supplier Manufacturer Exporter Of WESWOX REFRIGERATOR MICRO CENTRIFUGE, DIGITAL, MICROPROCESSOR BASED – MAXIMUM SPEED 16000 RPM Based In Ambala India. We Are One Of The Leading Manufacturers And Suppliers Of Centrifuge Machines, Pathological Instruments.
Weswox Is The Leading Supplier Manufacturer Exporter Of WESWOX REVOLUTIONARY MICROPROCESSOR LABORATORY CENTRIFUGE Based In Ambala India. We Are One Of The Leading Manufacturers And Suppliers Of Centrifuge Machines, Pathological Instruments.
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BUM270FLED Series LED fluorescence microscopes are newly developed microscopes, the microscopes use LED as the fluorescent light source, the life span of the LED lamp is much longer than mercury lamp, the performance is also better.
The MF31 series fluorescence microscope from Guangzhou Micro-shot Technology Co., Ltd. is a single or multi-color microscope that provides bright field and fluorescence capabilities. It uses LED illumination for both transmitted light and up to three-color fluorescence excitation. Key features include an infinity optical system, trinocular observation tube, interchangeable objectives from 4x to 100x, mechanical stage, focus controls, and optional cameras. Applications include tuberculosis diagnosis, dermatology, education, and research using stains such as GFP, FITC, and DAPI.
Weswox Is The Leading Supplier Manufacturer Exporter Of WESWOX ADVANCE RESEARCH BINOCULAR CLINICAL MICROSCOPE Based In Ambala India. We Are One Of The Leading Manufacturers And Suppliers Of Centrifuge Machines.
MF31-RB LED fluorescence microscope is used to for tuberculosis sputum slide quick diagnose, such as Zeiss iLED function. Offer 420nm~480nm excitation for Auramine O fluorescein.
MF31-UV is a fluorescence microscope with UV LED light source offer 330~380nm excitation, good to use for DAPI stained silde, such as fungus diagnostic.
Weswox Is The Leading Supplier Manufacturer Exporter Of WESWOX FLUORESCENCE MICROSCOPE Based In Ambala India. We Are One Of The Leading Manufacturers And Suppliers Of Centrifuge Machines, Pathological Instruments.
Educational compound microscope comes with siedentopf type binocular viewing head. With the help of coarse and fine focusing adjustment,
LED source of illumination, it is possible to obtain clear and sharp images of the specimen.
It is specially designed for examination & demonstration purpose. It can be used for advanced applications in schools and colleges.
Cytotoxic Safety Cabinet comes with Safety Height 200 mm (8 inches) of test opening, 440 mm (17 inches) of maximum opening, 465 m3/h (273 cfm) of exhaust
volume and 0.73m3 of internal work area. Maintaining cleanliness within the work zone for patient safety and product cleanliness.
The BQ 900 stands for excellent optics, versatility and ease-of-use. It is recognised as the standard for those requiring advanced slit lamp microscopy.
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Weswox Is The Leading Supplier Manufacturer Exporter Of WESWOX LIFE SCIENCE RESEARCH MICROSCOPE Based In Ambala India. We Are One Of The Leading Manufacturers And Suppliers Of Centrifuge Machines, Pathological Instruments.
Weswox Is The Leading Supplier Manufacturer Exporter Of WESWOX LIFE SCIENCE RESEARCH MICROSCOPE Based In Ambala India. We Are One Of The Leading Manufacturers And Suppliers Of Centrifuge Machines, Pathological Instruments.
Weswox Is The Leading Supplier Manufacturer Exporter Of WESWOX Research Fluorescent Microscope Based In Ambala India. We Are One Of The Leading Manufacturers And Suppliers Of Centrifuge Machines, Pathological Instruments.
The document provides an overview of the slit lamp biomicroscope, a microscope used to examine the eye. It describes the history, development, parts, optics, and various illumination techniques of the slit lamp. The slit lamp allows a magnified three-dimensional view of the eye for documentation and quantitative measurements. Examination with the slit lamp involves using different illumination methods like diffuse, direct, indirect, and retro-illumination to view different structures of the eye. Proper technique and understanding of slit lamp use is important for quality eye examinations.
Inverted biological microscope is Capture detailed images and observe specimens with exceptional clarity and precision. Perfect for research, education, and professional use.
Weswox Is The Leading Supplier Manufacturer Exporter Of WESWOX EPI-FLUORESCENCE MICROSCOPE Based In Ambala India. We Are One Of The Leading Manufacturers And Suppliers Of Centrifuge Machines, Pathological Instruments.
The slit lamp allows examination of the anterior segment of the eye and provides magnified views. It has three main components: an illumination system using a slit beam of light, an observation system with microscope, and a mechanical system. Different illumination techniques like diffuse, direct, retroillumination are used to examine various structures. The slit lamp is used for diagnostic evaluation of many anterior segment diseases and procedures like gonioscopy, pachymetry and contact lens fitting. It provides detailed examination of structures like cornea, iris, angle and anterior chamber.
. Introduction Biomicroscope derives its name from the fact that it enables the practitioner to observe the living tissue of eye under magnification. It not only provides magnified view of every part of eye but also allows quantitative measurements and photography of every part for documentation.
3. • The lamp facilitates an examination which looks at anterior segment, or frontal structures, of the human eye, which includes the –Eyelid –Cornea –Sclera –Conjunctiva –Iris –Aqueous –Natural crystalline lens and –Anterior vitreous.
4. Important historical landmarks De Wecker 1863 devised a portable ophthalmomicroscope . Albert and Greenough 1891,developed a binocular microscope which provided stereoscopic view. Gullstrand ,1911 introduced the illumination system which had for the first time a slit diapharm in it Therefore Gullstrand is credited with the invention of slit lamp.
The slit lamp biomicroscope allows examination of the anterior segment of the eye at high magnification. It consists of an illumination system using a bright slit of light and an observation system using a binocular microscope. Different illumination techniques such as diffuse, direct, and retroillumination can be used to examine different structures. The slit lamp provides important information for diagnosing eye diseases and has been improved since its invention over 100 years ago to include features like variable magnification and filters. It remains a vital tool for comprehensive eye examinations.
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ESA/ACT Science Coffee: Diego Blas - Gravitational wave detection with orbita...Advanced-Concepts-Team
Presentation in the Science Coffee of the Advanced Concepts Team of the European Space Agency on the 07.06.2024.
Speaker: Diego Blas (IFAE/ICREA)
Title: Gravitational wave detection with orbital motion of Moon and artificial
Abstract:
In this talk I will describe some recent ideas to find gravitational waves from supermassive black holes or of primordial origin by studying their secular effect on the orbital motion of the Moon or satellites that are laser ranged.
Describing and Interpreting an Immersive Learning Case with the Immersion Cub...Leonel Morgado
Current descriptions of immersive learning cases are often difficult or impossible to compare. This is due to a myriad of different options on what details to include, which aspects are relevant, and on the descriptive approaches employed. Also, these aspects often combine very specific details with more general guidelines or indicate intents and rationales without clarifying their implementation. In this paper we provide a method to describe immersive learning cases that is structured to enable comparisons, yet flexible enough to allow researchers and practitioners to decide which aspects to include. This method leverages a taxonomy that classifies educational aspects at three levels (uses, practices, and strategies) and then utilizes two frameworks, the Immersive Learning Brain and the Immersion Cube, to enable a structured description and interpretation of immersive learning cases. The method is then demonstrated on a published immersive learning case on training for wind turbine maintenance using virtual reality. Applying the method results in a structured artifact, the Immersive Learning Case Sheet, that tags the case with its proximal uses, practices, and strategies, and refines the free text case description to ensure that matching details are included. This contribution is thus a case description method in support of future comparative research of immersive learning cases. We then discuss how the resulting description and interpretation can be leveraged to change immersion learning cases, by enriching them (considering low-effort changes or additions) or innovating (exploring more challenging avenues of transformation). The method holds significant promise to support better-grounded research in immersive learning.
_Extraction of Ethylene oxide and 2-Chloroethanol from alternate matrices Li...LucyHearn1
How do you know your food is safe?
Last Friday was world World Food Safety Day, facilitated by the Food and Agriculture Organization of the United Nations (FAO) and the World Health Organization (WHO) in which the slogan rightly says, 'food safety is everyone's business'. Due to this, I thought it would be worth sharing some data that I have worked on in this field!
Working at Markes International has really opened my eyes (and unfortunately my friends and family 🤣) to food safety and quality, especially with my recent application work on ethylene oxide and 2-chloroethanol residues in foodstuffs, as of the biggest global food recalls in history was and is still being implemented by the Rapid alert system for food and feed (RASFF) in 2021, for high levels of these carcinogenic compounds.
When I was asked to give a companion lecture in support of ‘The Philosophy of Science’ (https://shorturl.at/4pUXz) I decided not to walk through the detail of the many methodologies in order of use. Instead, I chose to employ a long standing, and ongoing, scientific development as an exemplar. And so, I chose the ever evolving story of Thermodynamics as a scientific investigation at its best.
Conducted over a period of >200 years, Thermodynamics R&D, and application, benefitted from the highest levels of professionalism, collaboration, and technical thoroughness. New layers of application, methodology, and practice were made possible by the progressive advance of technology. In turn, this has seen measurement and modelling accuracy continually improved at a micro and macro level.
Perhaps most importantly, Thermodynamics rapidly became a primary tool in the advance of applied science/engineering/technology, spanning micro-tech, to aerospace and cosmology. I can think of no better a story to illustrate the breadth of scientific methodologies and applications at their best.
The cost of acquiring information by natural selectionCarl Bergstrom
This is a short talk that I gave at the Banff International Research Station workshop on Modeling and Theory in Population Biology. The idea is to try to understand how the burden of natural selection relates to the amount of information that selection puts into the genome.
It's based on the first part of this research paper:
The cost of information acquisition by natural selection
Ryan Seamus McGee, Olivia Kosterlitz, Artem Kaznatcheev, Benjamin Kerr, Carl T. Bergstrom
bioRxiv 2022.07.02.498577; doi: https://doi.org/10.1101/2022.07.02.498577
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Candidate young stellar objects in the S-cluster: Kinematic analysis of a sub...Sérgio Sacani
Context. The observation of several L-band emission sources in the S cluster has led to a rich discussion of their nature. However, a definitive answer to the classification of the dusty objects requires an explanation for the detection of compact Doppler-shifted Brγ emission. The ionized hydrogen in combination with the observation of mid-infrared L-band continuum emission suggests that most of these sources are embedded in a dusty envelope. These embedded sources are part of the S-cluster, and their relationship to the S-stars is still under debate. To date, the question of the origin of these two populations has been vague, although all explanations favor migration processes for the individual cluster members. Aims. This work revisits the S-cluster and its dusty members orbiting the supermassive black hole SgrA* on bound Keplerian orbits from a kinematic perspective. The aim is to explore the Keplerian parameters for patterns that might imply a nonrandom distribution of the sample. Additionally, various analytical aspects are considered to address the nature of the dusty sources. Methods. Based on the photometric analysis, we estimated the individual H−K and K−L colors for the source sample and compared the results to known cluster members. The classification revealed a noticeable contrast between the S-stars and the dusty sources. To fit the flux-density distribution, we utilized the radiative transfer code HYPERION and implemented a young stellar object Class I model. We obtained the position angle from the Keplerian fit results; additionally, we analyzed the distribution of the inclinations and the longitudes of the ascending node. Results. The colors of the dusty sources suggest a stellar nature consistent with the spectral energy distribution in the near and midinfrared domains. Furthermore, the evaporation timescales of dusty and gaseous clumps in the vicinity of SgrA* are much shorter ( 2yr) than the epochs covered by the observations (≈15yr). In addition to the strong evidence for the stellar classification of the D-sources, we also find a clear disk-like pattern following the arrangements of S-stars proposed in the literature. Furthermore, we find a global intrinsic inclination for all dusty sources of 60 ± 20◦, implying a common formation process. Conclusions. The pattern of the dusty sources manifested in the distribution of the position angles, inclinations, and longitudes of the ascending node strongly suggests two different scenarios: the main-sequence stars and the dusty stellar S-cluster sources share a common formation history or migrated with a similar formation channel in the vicinity of SgrA*. Alternatively, the gravitational influence of SgrA* in combination with a massive perturber, such as a putative intermediate mass black hole in the IRS 13 cluster, forces the dusty objects and S-stars to follow a particular orbital arrangement. Key words. stars: black holes– stars: formation– Galaxy: center– galaxies: star formation
Anti-Universe And Emergent Gravity and the Dark UniverseSérgio Sacani
Recent theoretical progress indicates that spacetime and gravity emerge together from the entanglement structure of an underlying microscopic theory. These ideas are best understood in Anti-de Sitter space, where they rely on the area law for entanglement entropy. The extension to de Sitter space requires taking into account the entropy and temperature associated with the cosmological horizon. Using insights from string theory, black hole physics and quantum information theory we argue that the positive dark energy leads to a thermal volume law contribution to the entropy that overtakes the area law precisely at the cosmological horizon. Due to the competition between area and volume law entanglement the microscopic de Sitter states do not thermalise at sub-Hubble scales: they exhibit memory effects in the form of an entropy displacement caused by matter. The emergent laws of gravity contain an additional ‘dark’ gravitational force describing the ‘elastic’ response due to the entropy displacement. We derive an estimate of the strength of this extra force in terms of the baryonic mass, Newton’s constant and the Hubble acceleration scale a0 = cH0, and provide evidence for the fact that this additional ‘dark gravity force’ explains the observed phenomena in galaxies and clusters currently attributed to dark matter.
Mending Clothing to Support Sustainable Fashion_CIMaR 2024.pdfSelcen Ozturkcan
Ozturkcan, S., Berndt, A., & Angelakis, A. (2024). Mending clothing to support sustainable fashion. Presented at the 31st Annual Conference by the Consortium for International Marketing Research (CIMaR), 10-13 Jun 2024, University of Gävle, Sweden.
Microbial interaction
Microorganisms interacts with each other and can be physically associated with another organisms in a variety of ways.
One organism can be located on the surface of another organism as an ectobiont or located within another organism as endobiont.
Microbial interaction may be positive such as mutualism, proto-cooperation, commensalism or may be negative such as parasitism, predation or competition
Types of microbial interaction
Positive interaction: mutualism, proto-cooperation, commensalism
Negative interaction: Ammensalism (antagonism), parasitism, predation, competition
I. Mutualism:
It is defined as the relationship in which each organism in interaction gets benefits from association. It is an obligatory relationship in which mutualist and host are metabolically dependent on each other.
Mutualistic relationship is very specific where one member of association cannot be replaced by another species.
Mutualism require close physical contact between interacting organisms.
Relationship of mutualism allows organisms to exist in habitat that could not occupied by either species alone.
Mutualistic relationship between organisms allows them to act as a single organism.
Examples of mutualism:
i. Lichens:
Lichens are excellent example of mutualism.
They are the association of specific fungi and certain genus of algae. In lichen, fungal partner is called mycobiont and algal partner is called
II. Syntrophism:
It is an association in which the growth of one organism either depends on or improved by the substrate provided by another organism.
In syntrophism both organism in association gets benefits.
Compound A
Utilized by population 1
Compound B
Utilized by population 2
Compound C
utilized by both Population 1+2
Products
In this theoretical example of syntrophism, population 1 is able to utilize and metabolize compound A, forming compound B but cannot metabolize beyond compound B without co-operation of population 2. Population 2is unable to utilize compound A but it can metabolize compound B forming compound C. Then both population 1 and 2 are able to carry out metabolic reaction which leads to formation of end product that neither population could produce alone.
Examples of syntrophism:
i. Methanogenic ecosystem in sludge digester
Methane produced by methanogenic bacteria depends upon interspecies hydrogen transfer by other fermentative bacteria.
Anaerobic fermentative bacteria generate CO2 and H2 utilizing carbohydrates which is then utilized by methanogenic bacteria (Methanobacter) to produce methane.
ii. Lactobacillus arobinosus and Enterococcus faecalis:
In the minimal media, Lactobacillus arobinosus and Enterococcus faecalis are able to grow together but not alone.
The synergistic relationship between E. faecalis and L. arobinosus occurs in which E. faecalis require folic acid
MICROBIAL INTERACTION PPT/ MICROBIAL INTERACTION AND THEIR TYPES // PLANT MIC...
LIFE SCIENCE MICROSCOPE WTC-7500FL..pdf
1. LIFE SCIENCE
MICROSCOPE
®
Since 1954
WTC-7500 fl
Reflecting Innovations in
Optical Design, Mechanical engineering, & illumination concepts,
WTC-7500 fl is a versatile & fully
extendable Research microscope system
2. LIFE SCIENCE MICROSCOPE
®
Technical Specifications :
The Western Electric & Scientific Works
Near B.D. Higher Secondary School,
Ambala Cantt-133001
India
Tel : (91) 171 4002952
Ph. : (91) 94664 09560
Emai l: info@weswoxindia.com
With a policy of continuous development, WESWOX reserves the right to
change design and specifications without prior notice.
Weswoxindia.com
Distributor/Dealer:
OPTICAL SYSTEM : Color Infinity corrected Optical system
o
Head : Gemeltrinocular head, 45 inclined, interpupillary distance adjustment range 54-75mm, one eyepiece tube
with±5diopteradjustmentlightsplittingratio:binocular100%;binocular0%/trinocular100%.
Eyepiece : PL10X22mm high eye-point plan eyepiece
Objective : Long working distance infinity plan fluorescence objective
LWD 4X/0.13/WD18.52, LWDPH10X/0.30/WD7.11, LWDPH20X/0.45/WD5.91,
LWDPLF40X/0.65/WD1.61. Phase contrast kit with centering telescope and green filter.
Nosepiece : Quintuple nosepiece revolving on ball bearings.
Stage and accessories : 160x250mm platform; Mechanical stage, move range 120x78mm; auxiliary stage 70x180mm; Slide
Glass holder; Metal stage with slot; Terasaki holder; Holder for φ35mm petri dish vessel.
Microscope body : Coaxial focus system, coarse focus distance 25mm, fine focus precision 0.002mm, with degree of
tightness adjustment, built-in 90-240V wide voltage transformer.
Reflected fluorescence : U-LH100HG mercury lamp house, center and focus adjustable. With mirror, center and focus adjustable.
illumination system Centering objective for mercury lamp. Optical band pass filter cubes:
UV1/B1/G1
30ND25 attenuation pad. The light-filter system of main body: 2 excitation light waves, B (blue filter),
G (green filter) and O (transmitted light).
Transmitted illumination : Critical illumination, 6V/30W halogen bulb, center presetting, brightness adjustable. Iris aperture
diaphragm.
Condenser : N.A.0.3 long working distance condenser, W.D.72mm,.
Filters : LBD color temperature change filter, IF550 contrast green filter
Accessories : Fuse 2 no.s, instruction manual.
Inverted fluorescent microscope is composed of inverted microscope and Epi-fluorescent
microscope. The inverted microscope has the feature to observe the specimen in Culture flask
and Petri dish. Epi-fluorescent device applies to the fluorescent microscopy. It is equipped with
long wording distance plan achromatic objectives, wide field eyepiece, binocular observation
head, phase contrast kit and phase contrast objectives. The transparent alive objects can be
observed without dyeing. Epi-fluorescent microscope adapts to Epi-illumination excitation to
make fluorescent image clear. Long working distance condenser can contain higher culture
dish and specimen. This equipment is especially suitable for micro research of living cells &
university, medical treatment, epidemic prevention department and farming &
stock raising,
etc.