Electron microscopes refer to those microscopes that make use of an electron beam to light a specimen producing a magnified image. These microscopes are used to study structures that are either invisible through naked eyes or those that are too small to be clearly seen using a light microscope. The two major types of electron microscope are Transmission Electron Microscopy or TEM and Scanning Electron Microscopy or SEM (Mooney, 1996).
Transmission Electron Microscopy employs a high voltage electron beam in order to create an image (NE, 2013). The TEM is made up of various components including electromagnetic lens system, electron source, sample ...
Electron College Essays Samples For Students
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1. Introduction to the Technique
Magnification and high resolution imaging are very important in materials science, especially at present when nanotechnology materials are being created. Magnification and high resolution imaging can help in the characterization, identification, and confirmation of the existence of the desired material. Magnification and high resolution imaging become problems when the size of the assessed material becomes too small; such as, they are beyond the micrometer scale. Ordinary techniques in microscopy such as light microscopy where in a traditional light microscope is used could not suffice. Fortunately, in 1931, two scientists named Ernst Ruska and Mx ...
Summary3
Introduction4
- Problem Background..4
- Literature Review5
- Problem Analysis7
- Recommendations.10
Conclusions12
Appendices.13
References..14
Summary
The current paper consists of introduction, four main parts, and conclusion. There was a brief summary of the case study proposed for analysis described in the introductory part. The case relates small manufacturing company – Electron – that experienced difficulties in managing work of manufacturing employees. The Company needed advice of how to effectively organize work in the newly formed team with older employees exerting excessive control over the new workers.
In the first part the problem background was ...
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A1. Explain how enzymes act as catalysts in biochemical processes (e.g., fructose metabolism, glycolysis); A2. Explain how a deficiency in aldolase B can be responsible for hereditary fructose intolerance; A4. Discuss the specific substrate acted on by aldolase B during the breakdown of fructose; A5. Explain the role of aldolase B in the breakdown of fructose by discussing the products of the reaction.
Enzymes are proteins that work as catalysts in reactions. A catalyst is something that is neither created nor destroyed during a reaction. Instead, an enzyme is shaped such that when the substrate reacts with the enzyme the ...
Abstract
Microscopy is the science of viewing objects that are very minute and can only be viewed by an instrument called a microscope. The science began in the 16th century and has been progressing into viewing specimens at higher resolutions, greater magnifications, and in 3-D. These advancements are in the three sub-branches of microscopy which are scanning-probe, optical, and electron microscopy. The paper analyses the latest advancements in the three fields indicating what the invented microscopes can be used in science.
Introduction
In Biology, Microscopy is the technique of using microscopes to view objects that are very minute and can only be ...
Bio fuel cells utilize biocatalysts for the conversion of chemical energy stored in glucose into electrical energy. Bio-catalyzed oxidation of glucose or other organic substances at two electrode interfaces provides a means for conversion of chemical energy into electrical energy. The obtainable power of a fuel cell (P cell) is the product of cell voltage (V cell) and the cell current (I cell)
The ideal voltage id affected by the difference in potential of the oxidizer and fuel as represented in the equation
(E◦1ox - E◦1fuel), with irreversible losses in voltage caused by kinetic limitations of electron movement, (η). Resistance and differences in concentration gradients of the energy source lead to decreased voltage values. As represented below
P cell = ...
A cell is a functional, structural and a biological unit in all living organisms. They are the smallest unit of life and can replicate independently. Living cells exist in both plants and animals. They have some fundamental requirements that enable to sustain themselves such as electron acceptors, electron donors an energy source and even a carbon source.
Carbon in living cells and mostly plants is every vital for the plant cells. Plants intake carbon dioxide in the process of respiration and with the addition of water and energy obtained from sunlight, it makes glucose and produce oxygen gas. The formation of ...
Corse
Photosynthesis refers to the process by which plants and other organisms as photosynthetic bacterias convert light from the sun into chemical energy that they use for survival. The energy released is vital for the functioning of the plants and the support of life on earth. For photosynthesis to take place, there are four basic factors that must be fulfilled. These include carbon dioxide, water, sunlight, and chlorophyll. Therefore, the process of photosynthesis helps remove carbon dioxide from the atmosphere. One of the byproducts of the process of photosynthesis is oxygen, a vital gas for the survival of animals on earth.
...
Chapter 1: Life Before Bonding
It was almost dark and there was absolutely no sound in the woods apart from three footsteps and the breeze was flowing and making noise. Suddenly, Jack stopped and said “it is enough friends, we need to do something or else we would be left alone and will remain the same in our lives”. Jack was very aggressive and he was a sodium electron, he was very introvert and remained alone in his Atom’s outer shell. Jack was tranquilized by Crystal, and she was a chlorine electron and mentioned that “Jack, together we will be able to do something however ...
Introduction
Cellular respiration and photosynthesis are vital reactions in living organisms since without the two; there would be no life on earth. Cellular respiration involves a set of metabolic reactions that take place in cells of living organisms thereby converting nutrients like sugar into adenosine triphosphate (ATP) (Osterhoudt & Barhydt, 2010). On the other hand, photosynthesis involves the conversion of carbon dioxide into organic compounds by the photoautotroph in the presence of sunlight. Most animals attain their energy requirements through cellular respiration while on the other hand; photosynthesis is performed by most plants that can make their food. These two reactions ...
Introduction
Q1 . The fundamental requirement for a living cell to sustain itself are a carbon source, an energy source, an electron donor, an electron acceptor and elemental nutrients(N,P, S, Mg,) etc. Explain how each of these fundamental requirements are needed by the living cell to function. Explain how the cell can maintain its own internal biological processes without being in equilibrium with the external environment.
The living cells can function within a constricted range of such conditions such as nutrient availability, pH, ion, temperature, etc. The cell must coordinate different chemical reactions and consolidate many different molecules into definite structures, ...
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The Sun has been with us for 4 billion years, and is the nearest star to the Earth. The Sun is comprised of about 74% of hydrogen, 25% of helium, and 1% of other elements. The surface of the Sun has a temperature of about 5800 K. The core of the Sun has a temperature ranging from 10 – 15 million Kelvin. This temperature range is high enough to activate nuclear fusion within the Sun. Here, four protons will fuse together to obtain a helium nucleus containing two protons and two neutrons via a proton-proton chain. The core of the ...
- Introduction
Solar cells function by converting solar light energy into electricity. It functions on the basis of the photovoltaic effect. “Photo” stands for light and “voltaic” means electricity (light–electricity). A solar cell is capable of providing DC current. This DC current can be used to light bulbs and power DC motors. Rechargeable batteries also use this DC current, which can be utilized later on when the sun is not available. Also, these batteries, when fully charged, are portable and can be used wherever and whenever you want them (De Vos, 1980).
Solar cells are comparable ...
Chapter 1: Life Before Bonding
It was almost dark and there was absolutely no sound in the woods apart from three footsteps and the breeze was flowing and making noise. Suddenly, Jack stopped and said “it is enough friends, we need to do something or else we would be left alone and will remain the same in our lives”. Jack was very aggressive and he was a sodium electron, he was very introvert and remained alone in his Atom’s outer shell. Jack was tranquilized by Crystal, and she was a chlorine electron and mentioned that “Jack, together we will be able to do something however ...
Introduction
There are different perspectives that are being peddled concerning fracture processes, this has led to confusion on what actually this term means. In this review, a deeper understanding is sort by analyzing different aspects of the nomenclature of the fracture process. In order to gain a deeper understanding of the failure processes several aspects are put in consideration key among them will be discussed below and include; the energy of fracture, macroscopic structure path and microscopic fracture mechanisms.
Energy to Break
The toughness of a material is the measure of the absorbed energy during and before fracture. The toughness of the material ...
Abstract
All cells in a living organism require energy to drive various cellular activities such as transport of molecules and movement among others. The rate of cellular respiration may be affected by the substrate concentration, pH level and enzyme concentration among other factors. This experiment aimed to study the rate of cellular respiration in isolated mitochondria under different conditions. It was hypothesized that if the concentration of the substrate is increased then there will be an increase in the rate of cellular respiration. Mitochondrial suspension was used as the source of succinate that was used as the substrate. The level of ...
Microbial fuel cells are devices that employ bacterial or other microbial cells to generate electricity (Singh, Pratap, Baranwal, Kumar and Chaudhary, 2010). Cells generally carry out electron transfer and oxidation-reduction reactions during normal metabolic activities. Electrons generated during these reactions can be made to flow through an external circuit to generate current. Fig 1. Depicts a typical MFC. The anodic compartment consists of microbial culture in glucose or other medium (Singh et al, 2010). Wastewater can also be used as a substrate source for microbes in a MFC intended for effluent treatment application. The microbial cells breakdown complex substrates ...
Chapter 3 Atoms and the Periodic Table
For centuries, many have tried to learn about the smallest particle. As far as 2500 years ago, Democritus and Leucippus created an idea for the atom and called it ‘atmos’ meaning indivisible. Various philosophers and scientists have proposed models for what and how the atom should be. The initial theory proposed by Dalton in 1803 states that atoms are indivisible and that all atoms of a particular material are identical. He also stated that atoms of different materials join to form compounds. J.J. Thompson proposed the initial model of the atom. It is called the plum pudding model. He theorized ...
Although Helium and Lithium only differ in one element, differ in their chemical and physical behavior. Helium is a noble gas which is found in group 18. Helium has only one electron shell which contains two electrons. The complete shell makes helium an inactive element and does not combine with other elements. Lithium, on the other hand, has three electrons meaning it has two shells. The first shell in lithium, has 2 electrons, and the second has only 1 electron. The second shell is not complete and therefore very active making lithium to combine readily with other elements. The free ...
Introduction
Physics is an abstract field of science that influences our lives in more ways than we can imagine. From waking up every morning, to the water we drink; from driving to work, to the music we listen to; from the internet, to the cell phones that we use so often, physics governs all their basic operating principles. Many natural phenomena throw questions whose answers lie deep in physics. Why are lightning flashes so spectacular? How long does it take for light from a star to reach us? How is a rainbow formed? What causes a boomerang to swirl back? Many of these ...
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Chapter 8
Chemicals in action
An acid and base reaction occurs when a complete exchange of electrons between the proton donor and proton acceptor occurs. In this process a salt if formed. In the definition, a salt is a substance formed from an acid by its replaceable hydrogen either wholly or partially by a metal or an equivalent radicle. Example of salt formation
Mg+H2SO4→MgSO4+H2
Mg+HCl→MgCl2+H2
In the modern ionic theory, a salt is a compound of oppositely charged ions. From this point of view, there is no difference between NaCl and NaOH. Further, anhydrous aluminum chloride is not a ...
Aim of the experiment
Apparatus
Spectrometer, sodium vapor lamp, mercury vapor lamp, watch maker eye glass and small flash lights.
Abstract
This is the phenomenon where atoms are excited and emit light of various wavelengths. These lines which are colored with dark fringes between them are known as atomic spectra. All elements have distinct set of spectral lines. It is this unique spectrum associated with certain distinct element. The atomic spectra of various elements of investigation will be studied in this experiment using a diffraction grating mounted on a spectrometer. The atomic transitions of various elements under investigation will be used to ...
Instrumentation
Advantages and disadvantages of different types of photomultiplier tubes (PMT) in the context of the gamma camera
Tubes with GaP(Cs)
The Tubes with GaP(Cs) is an example of a PMT. Fliyckt and Marmonier (2009) state that one of its advantages as the high secondary emission coefficient of the GaP(Cs) which enables it to reduce the unexpected fluctuations of gain in most PMTs and therefore, improving the energy resolution. This is especially beneficial for light pulses that can allow the cathode produce only a few electrons. Since the GaP(Cs) also has a dynode, it allow the viewer ...
Part A
How Enzymes Act As Protein Catalysts in Biochemical Processes
Catalysis refers to the speeding up of a chemical reaction by a catalyst. A catalyst is a substance that accelerates a chemical reaction but does not undergo a permanent chemical change in the process. Enzymes are catalysts whose building blocks are amino acids: they are proteins. Enzymes also exhibit a defined three-dimensional structure. In addition, they have a cleft on their surface called active site. The active site is the region where substrate interactions take place. Enzymes play important roles in fructose metabolism. The first step of fructose metabolism in the liver is the phosphorylation of ...
The sun is about 864000 miles wide and filled with sweltering hot gases. Hydrogen is the most abundant element present in the Sun, composition of the Sun by its constituent mass is 71% hydrogen (H), 27% helium (He) and 2% other heavier elements. Inside the Sun the gravitational pull compresses the gases, and increase the temperature and pressure at the core. (CAIN, F., 2009) The temperature is about 10000°F on the surface and more than 28 million degrees Fahrenheit at the core of the sun. The pressure at the core of the sun is 250 billion times the ...
The work analyzed within the framework of this assignment is “Synthesis of magneto‑sensitive iron‑containing nanoparticles by yeasts” prepared by Vainshtein M., Belova N., Kulakovskaya T., Suzina N. and Sorokin V. It is dedicated to study of forming magneto-sensitive nanoparticles in the conditions of applied magnetic fields. In particular, the stimulation role of magnetic fields is investigated and tested. As a result, the works allows us to see results of magneto-sensitive nanoparticles biosynthesis by the help of yeasts.
Summary of the Methods and Achievements of the Work Reported
The second species considered, S. cerevisiae SUF was incubated using the medium with Fe(II)SO4 × 7H2O, 0.05. Inoculum took place ...
(Study Programme)
Introduction
Physics remains a very useful field in the modern technological lives. Without physics, there would be very little understanding of how things work. Physics creates an understanding of the functioning mechanisms of the world and the different elements through such topics as kinetic energy, laws of motion, laws of gravity, mass, etc. Almost every aspect of people’s lives revolves around physics. Consequently, without physics, there wouldn’t be development such as lighting from electricity sources, motor-vehicles, electricity and so on. Physics is, therefore, an arm of science that involves the study of matter characteristics, energy and their ...
After a long journey from the hot sun, I was really glad to have reached such a calm and beautiful place full of trees. And so I settle on leaf, lay along the leaf and begin my rest – the best feeling I’d had in a long time. All of a sudden, I was captured by the leaf and transported through this thick transparent cuticle, then across the epidermis before we got to the palisade mesoderm. There, I was moved to these green pigment (chlorophyll) on the surface of the chloroplasts. The chlorophyll ushered me into the chloroplast. In the chloroplast, I was ...
Abstract. The aim of the study was to validate the existence of vesicles in gram positive bacteria, bacillus subtilis. The visualization of the vesicles was carried out by various microscopy techniques. The measurement of vesicle size was performed and the amount of vesicles compared between various strains. The laboratory cultured strains was more effective in the study as they exhibited hyper production of the vesicles. The production of vesicles was also validated in environmental strain, however in much smaller amount. The vesicles were also visualized and isolated from biofilms that act as the natural environment of the bacteria. Proteomic ...
Introduction
Electromagnetism refers to the creation of a magnetic force from the movement of electrical charges. In order to find application in most electrical appliances, electromagnetism concerns the use of electric current to make electromagnets. This field of electricity is called Electrodynamics. It can also mean using magnetic field to induce an electric current. This field of electromagnetism is called Electromagnetic Induction. Almost all electrical appliances use one of the two types of electromagnetism mentioned above especially those with moving parts. This paper discusses the application of electromagnetism in a speaker.
Application of electromagnetism in a speaker
The speaker is basically an electronic transducer which converts electric energy ...
(City, State)
Introduction
A balanced diet refers to the food intake, which incorporates all the dietary needs of an organism in the right proportions. This is unlike the adequate diet, which includes the energy that is sufficient energy for the need of an individual. A balanced diet, therefore, includes both sufficient energy as well as all the dietary requirements that are needed by an individual at the right proportion. The main components that make up a balanced diet include carbohydrate, proteins, vitamins, fats, dietary fiber, water and minerals. Carbohydrates as a source of nutrients in the body are usually broken down through ...
Introduction:
Carbon dioxide is generated through cell metabolism that takes place in the mitochondria. Carbon dioxide amount that is produced is dependent on the metabolism rate as well as on the relative carbohydrate, protein and fat amount being metabolized. The amount of carbon dioxide produced at rest is usually about 200 ml per minute eating a mixed diet. This results in the utilization of about 80% of oxygen and gives respiratory quotient of 0.8 (Arthurs & Sudhakar 2005, p. 207). Carbon is one of the main products that are released following metabolism and the level of it in the body is highly ...
With close to 2.8% of the earth’s crust consisting of sodium in compounds, Sodium is by no doubt one of the most abundant elements on earth. The element has an atomic mass of about 22.98 amu and belongs to period 3 Group 1 (1A) (between Lithium and potassium) hence has an atomic number of 11, a valance of 1 and an oxidation state of +1. The Latin name for the symbol of Sodium is Natrium hence the symbol Na while the “Sodium” in Latin is referred to as Sodanum. Additionally, even though the element has 14 isotopes, the only ...
Abstract
The field of Nanoscience has evolved due to the other advancements in the other fields of study such as the Nanotechnology. While the latter is a subset of the former, there is credible evidence that points to the fact that Nanotechnology has been developed thanks to various areas such as biology, material science, engineering physics, chemistry and much more. It is the foundation on which the Magnetic Nanoparticles have been embedded. MNP is nanoparticle that has the magnetic manipulation ability.
Thus, this paper focuses on the study of the Magnetic Nanoparticles especially how they are formed or synthesized and ...
Gold Nanoparticles Article Summaries.
Original Article Summary: Turkevich, Stevenson, & Hillier, 1951.
In their 1951 article, Turkevich, Stevenson, and Hillier explore the nucleation processes and growth of colloidal gold nanoparticles during synthesis under different methods. The paper explores the standard preparation methods of colloidal gold which all use a nucleating agent which usually comprises reducing agents that later form a mixed polymer with a chloroauric ion before reduction to the nucleus occurs. The authors of this paper explore gold colloids synthesis methods such as Bredig’s electrical arc synthesis, the Faraday method, and reduction methods using acetone, tannin gold solution, oxalic acid, Hydroxylamine hydrochloride, ...
Barbara McClintock was a one time student at Cornell University under the auspices of one C. B. Hutchison, who was lecturing in genetics during the fall in 1921. Genetics had not become a widely accepted course during the time, and students used to study it as a preamble to becoming plant breeders. Having been born in Hartford Connecticut in 1902, she earned her first degree in 1923, her Masters in 1925 and a Doctorate in Philosophy in 1927. Her steady rise as a geneticist was inspired by C. B. Hutchison. She studied the genetic characteristics of maize concentrating on ...
Acids
There are three scientifically correct definitions that define an acid substance. Arrhenius defines an acid as a substance that made up of hydrogen that when dissolved in water breaks apart increasing the concentration of hydrogen ions (H+) in the water. Bronsted-Lowry defines an acid as a proton (H+ ion) donor. Lewis describes acids as substances that accept electron pairs. Acids have a sour taste and are highly reactive with metals (Brent, 2009). Nitric acid is used as fertilizers, and hydrochloric acid is used to bricks.
Bases
A basic substance can also be described using definitions from the three authors. Arrhenius ...
Polymers cells are the next-generation class of photovoltaic since they promise realization of light weights, mechanically flexible, larger area devices. The room temperature solution processing can be used in fabricating these devices. High-efficiency conversion power of about 10% has recently been obtained in tandem polymer cells (Huo et al., 2015). In single-junction, it’s achievable through lowering the density state to a level lower than the electron acceptor and the conduction band of the semi-conductor. Photovoltage is electromotive force obtained by a photosensitive material due to inducing radiant energy; photovoltaic relates electric current produced at a junction of two ...
Question 1:
Ernest Rutherford is sometimes referred to as the “Father of Radioactivity”. Rutherford made many contributions to research into radioactivity and the nature of an atom. Outline his contributions.
Rutherford contributed greatly towards the experimenting, studying and understanding of radioactivity, and the atom. His initial contribution was the discovery and definition of the electron. The Nobel laureate proposed the Rutherford atom model that replaced the Thompson model. This provided an excellent basis for future work into the studying of atoms, as well as, their physical and chemical properties. He was involved in research aimed at splitting the atom leading to ...
Concerning personal identity my position is similar to that of John Locke. I reject the idea that my personal identity is tied to my soul, as Cartesian theory suggested. I also do not believe that my personal identity is tied to my body. It seems more plausible to me that my personal identity is tethered to my memories because I am a culmination of my experiences. What I have endured, learned, and observed have made me into the person typing this. Memories are what have created my personal identity.
My position on the mind and body problem, or that ...
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Essay
Bacteria in a closed bioreactor grow and decay in four stages because they sterile culture of cells. It a bioreactor incorporates environmental conditions such as temperature, dissolved gases and nutrient concentration that integrate to help bacteria and eventually decaying. The underlying conditions make the bacteria to grow to maximum level. Since the bacteria is in a closed bioreactor, the underlying conditions become more as the maximum growth is attained thus leading to their decay.
Lag phase
In the lag phase, growth and reproduction has just begun. Inoculum is the bacteria undergoing metabolism and the environmental conditions required include nutrient limitation, inhibitors, ...
A picture is worth a thousand words, definitely pictures can express human thoughts, emotions and dreams that can never be uttered by the lips. Back then, people can record physical appearance and historical events through paintings. On the other hand, a Frenchman named Joseph Niepce took the first permanent photograph in 1827 (Madgwick, 28). Photography made it easier for people to record history without resorting to paint the entire scenery that they see. Rich men and women, especially those who belong to the aristocracy choose photography for their personal portraits; adding a touch of modernism to their noble countenance. In short, the ...
Q1
Insolation can be described as the amount of energy of solar radiation received on a certain surface area and recorded in a given time. It is also known as solar irradiation and expressed as daily irradiation when recorded during a day and hourly irradiation when recorded during an hour. Throughout the year, the seasons undergo changes based on the quantity of sunlight hitting the Earth as it circles around the Sun.
Seasons occur as a result of Earth tilting on its axis, moving in a loop around the Sun every year. Summer occurs when the hemisphere is angled towards the Sun ...
Introduction:
Carbon dioxide is generated through cell metabolism that takes place in the mitochondria. Carbon dioxide amount that is produced is dependent on the metabolism rate as well as on the relative carbohydrate, protein and fat amount being metabolized. The amount of carbon dioxide produced at rest is usually about 200 ml per minute eating a mixed diet (Arthurs &Sudhakar 2005). Carbon dioxide is one of the main products that are released following metabolism and the level of it in the body is highly regulated. This paper aims at discussing the production and transport of carbon dioxide from the cells through ...
