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This document provides an overview of mammals, including their definition, key characteristics, types, facts, habitats, diets, reproduction, and survival strategies. It discusses how mammals are defined as animals that feed their young milk, are covered in hair, and give live birth. The document also outlines the three subclasses of mammals - monotremes, marsupials, and placentals - and provides examples of each.
MS&E 272 Endonav Pitch
The company aims to deliver an innovative, low-cost colonoscopy solution called EndoNav's RigiFlexTM disposable Over-the-Scope (OTS) device that eliminates the need for painful sedation and increases procedure throughput. The solution addresses problems with traditional colonoscopy scopes that cause looping and damage to the colon. It is estimated to decrease procedure time, increase revenue, reduce complications, and have a shorter learning curve for physicians. Financial projections estimate the company will have positive net income within 3 years and an overall internal rate of return of 99%.
Coleman Ppt
The document discusses a passage from Shakespeare's A Midsummer Night's Dream. It contains the following excerpt from the play: "I know a bank where the wild thyme blows, Where oxlips and the nodding violet grows, Quite over-canopied with luscious woodbine, With sweet musk-roses and with eglantine: There sleeps Titania sometime of the night, Lull'd in these flowers with dances and delight; And there the snake throws her enameled skin, Weed wide enough to wrap a fairy in." Students are then asked to draw an image based on the passage and write a short poem to help visualize the scene.
Sarajevo Bosna i Hercegovina
Sarajevo is capital city of (the state of) Bosnia and Herzegovina. It is its administrative, economic, cultural, educational (university) and sport center. The city of Sarajevo is unit of local self-governance, which consists of four city municipalities: Old City, Center, New City and New Sarajevo.
Safety Awards 2007
El documento presenta los resultados de un premio a la seguridad ocupacional, donde el cambiador de lámparas obtuvo el primer lugar y los soldadores y albañiles compartieron los últimos puestos, mientras que otros oficios como mecánico de automóviles, electricista e ingeniero aeronáutico se ubicaron en el medio de la tabla.
Diapositivas De Nt
Este documento presenta una introducción a las nuevas tecnologías de comunicación e información y sus aplicaciones educativas. Explica que las nuevas tecnologías como la computadora, internet y el correo electrónico están transformando la educación al permitir nuevas modalidades como la educación a distancia y el aprendizaje flexible. También describe los componentes básicos de la informática como la unidad central de proceso y los periféricos, y la importancia de capacitar a educadores en el uso de estas herramientas.
Recommended
Interactiveppt
This document provides an overview of mammals, including their definition, key characteristics, types, facts, habitats, diets, reproduction, and survival strategies. It discusses how mammals are defined as animals that feed their young milk, are covered in hair, and give live birth. The document also outlines the three subclasses of mammals - monotremes, marsupials, and placentals - and provides examples of each.
MS&E 272 Endonav Pitch
The company aims to deliver an innovative, low-cost colonoscopy solution called EndoNav's RigiFlexTM disposable Over-the-Scope (OTS) device that eliminates the need for painful sedation and increases procedure throughput. The solution addresses problems with traditional colonoscopy scopes that cause looping and damage to the colon. It is estimated to decrease procedure time, increase revenue, reduce complications, and have a shorter learning curve for physicians. Financial projections estimate the company will have positive net income within 3 years and an overall internal rate of return of 99%.
Coleman Ppt
The document discusses a passage from Shakespeare's A Midsummer Night's Dream. It contains the following excerpt from the play: "I know a bank where the wild thyme blows, Where oxlips and the nodding violet grows, Quite over-canopied with luscious woodbine, With sweet musk-roses and with eglantine: There sleeps Titania sometime of the night, Lull'd in these flowers with dances and delight; And there the snake throws her enameled skin, Weed wide enough to wrap a fairy in." Students are then asked to draw an image based on the passage and write a short poem to help visualize the scene.
Sarajevo Bosna i Hercegovina
Sarajevo is capital city of (the state of) Bosnia and Herzegovina. It is its administrative, economic, cultural, educational (university) and sport center. The city of Sarajevo is unit of local self-governance, which consists of four city municipalities: Old City, Center, New City and New Sarajevo.
Safety Awards 2007
El documento presenta los resultados de un premio a la seguridad ocupacional, donde el cambiador de lámparas obtuvo el primer lugar y los soldadores y albañiles compartieron los últimos puestos, mientras que otros oficios como mecánico de automóviles, electricista e ingeniero aeronáutico se ubicaron en el medio de la tabla.
Diapositivas De Nt
Este documento presenta una introducción a las nuevas tecnologías de comunicación e información y sus aplicaciones educativas. Explica que las nuevas tecnologías como la computadora, internet y el correo electrónico están transformando la educación al permitir nuevas modalidades como la educación a distancia y el aprendizaje flexible. También describe los componentes básicos de la informática como la unidad central de proceso y los periféricos, y la importancia de capacitar a educadores en el uso de estas herramientas.
Chapter 3
The document discusses numerical methods for approximating integrals and solving non-linear equations. It introduces the trapezium rule for approximating integrals and provides examples of using the rule. It then discusses iterative methods like the iteration method and Newton-Raphson method for finding approximate roots of non-linear equations, providing examples of applying each method. The objectives are to enable students to use the trapezium rule and understand solving non-linear equations using iterative methods.
Lecture 3
Differential equations are used to model various phenomena in science and engineering, such as sound propagation, electromagnetism, chemical reactions, cooling objects, and radioactive decay. The document provides examples of using differential equations to model chemical reactions, Newton's law of cooling for cakes, and carbon-14 dating to determine the age of fossils.
Lecture 2
The document discusses methods for solving different types of first-order differential equations (DEs). It explains that separable DEs can be solved by separating the variables, while linear DEs require using an integrating factor to solve for the general solution. Non-separable DEs cannot be solved by separating variables alone. Examples are provided to demonstrate solving linear first-order DEs using an integrating factor to get the general solution and imposing initial/boundary conditions to get the particular solution.
Lecture 1
This document discusses differential equations and their solutions. It defines differential equations as equations involving derivatives. It notes that solutions can be general, containing an arbitrary constant, or particular, containing an initial value. Examples are given of separating variables and integrating to find the general solution to first order differential equations.
State Of Matter
The document discusses the three states of matter - solid, liquid, and gas. It explains the properties of gases and how gas particles are in constant random motion. The gas laws including Boyle's law, Charles' law, Avogadro's law, and the ideal gas equation are described. It also covers gas pressure, measurement of pressure using barometers and manometers, gas density calculations, and sample problems involving the gas laws.
Periodic Table 5
The document discusses several periodic properties of elements including atomic radius, ionization energy, and electronegativity. It explains that atomic radius decreases across a period as nuclear charge increases but increases down a group as electron shielding increases. Ionization energy generally increases across a period as it becomes harder to remove electrons but decreases down a group as electrons are farther from the nucleus. Electronegativity also increases across a period as nuclear attraction increases.
Periodic Table 2
The document discusses the development and structure of the modern periodic table. It describes how scientists like Newlands, Mendeleev, and Moseley contributed to organizing the elements based on their atomic structure. The modern periodic table arranges elements in periods and groups based on proton number and electron configuration. It explains the properties and classification of different blocks of elements like metals, non-metals, metalloids, alkali metals, alkaline earth metals, halogens and noble gases.
Matter2
The document discusses various concentration units used to express the amount of solute dissolved in a solution, including molarity (M), molality (m), percent by mass (% w/w), percent by volume (% w/v), parts per million (ppm), and mole fraction. It also covers concepts such as oxidation number, balancing redox equations, and stoichiometric calculations involving limiting reactants. Exercises with answers are provided to illustrate these topics.
Periodic Table4
The document summarizes key concepts about the periodic table including its organization based on electron configuration and blocks (s, p, d, f), rules for filling orbitals like the Pauli exclusion principle and Hund's rule, and examples of writing electronic configurations for elements like sodium, neon, aluminum, argon, and potassium.
Matter1
The document discusses several key concepts in chemistry:
1. It defines atoms and their subatomic particles (protons, neutrons, electrons), isotopes, relative atomic mass, and relative molecular mass.
2. It explains that matter is made up of elements, compounds, and mixtures and defines these terms. Atoms combine to form molecules or ions that make up compounds.
3. It introduces the mole as a unit containing 6.022x10^23 elementary entities that is used to relate the amount of a substance to its mass in grams.
Basic Cell Life 2
The document provides information about cell structure and functions:
- Cells are the basic unit of life and come in two main types: prokaryotic and eukaryotic. Prokaryotic cells lack membrane-bound organelles while eukaryotic cells have organelles.
- The cell membrane controls what enters and exits the cell. Transport proteins allow substances to move across the membrane through diffusion, osmosis, and active transport.
- The cell contains organelles that perform important functions like DNA storage in the nucleus, protein synthesis in the ribosomes, and energy production in mitochondria.
Liquid
Liquids have molecules that are close together and experience stronger attractive forces than gases, allowing them to flow freely within a container but take its shape. Viscosity, a liquid's resistance to flow, depends on molecular size and intermolecular forces, and increases for more complex, polar molecules. Surface tension results from attractive forces between liquid molecules and causes the surface to contract, while vaporization occurs when high-energy molecules overcome attractive forces and escape as a gas. Vapour pressure is affected by intermolecular forces and temperature, increasing with weaker forces and higher temperatures.
Active Transport New
Active transport requires cells to use energy in the form of ATP to move substances against their concentration gradient, such as the sodium-potassium pump transporting sodium and potassium ions across nerve cell membranes. The sodium-potassium pump uses ATP to pump 3 sodium ions out and 2 potassium ions into the cell against their gradients. Transport proteins also use active transport for molecules too large to pass through the membrane on their own, such as during endocytosis and exocytosis.
The Chemicals Of Life
The document provides an overview of basic biology concepts including:
1. Atoms and elements are the building blocks of all living things, with carbon, oxygen, hydrogen, and nitrogen being the most abundant elements in living organisms.
2. Molecules and compounds are formed through chemical bonds between atoms, including covalent, ionic, and hydrogen bonds.
3. Key biomolecules include water, carbohydrates like sugars and starches, lipids, and proteins which are made of amino acids and have unique structures and functions.
Photosynthesis
The document defines photosynthesis as the process by which plants and algae convert light energy to chemical energy to produce sugars. It occurs in chloroplasts through two stages: the light-dependent reactions where light energy is captured to produce ATP and NADPH, and the light-independent reactions where carbon dioxide is fixed into carbohydrates using the ATP and NADPH. The rate of photosynthesis is affected by light intensity, carbon dioxide concentration, and temperature, with an optimum level for each factor.
Medical Microbiology
Medical microbiology is the study of microorganisms that cause disease, such as bacteria, viruses, parasites and fungi. It examines the spread and diagnosis of infectious diseases. The goal of medical microbiology is to understand how microbes cause illness and find ways to prevent and treat infections.
Paternalism
Paternalism in medicine refers to doctors making decisions for patients that override the patients' wishes. There are two types: strong paternalism intentionally overrides patients against their will, while weak paternalism assumes patients cannot understand information or that some information would burden them.
Justifications for paternalism include the vulnerability of sick patients, medical expertise, and preserving patients' confidence in their doctors. However, most medical decisions are not urgent and patients should have time to understand their conditions and state their preferences. While doctors have expertise, personal values also influence treatment decisions. Disclosure of uncertainty need not decrease effectiveness if done to involve patients in their care.
Respiration
The document defines and explains the stages of aerobic respiration including glycolysis, the Krebs cycle, and the electron transport chain. Glycolysis breaks down glucose to produce pyruvate and ATP. The Krebs cycle further breaks down pyruvate to produce NADH, FADH2, ATP, and carbon dioxide. The electron transport chain uses NADH and FADH2 to produce ATP through oxidative phosphorylation. In total, the complete aerobic respiration of one glucose molecule produces approximately 30-32 molecules of ATP.
Preference Of Patients
Patient preferences are important for clinical, ethical, legal and psychological reasons. When patients make choices about their healthcare based on their own values and experience, and these preferences are respected by physicians, it improves health outcomes. Patients who feel they are collaborating in shared decision making have greater trust in their doctors and cooperate better. Documenting a patient's informed consent also protects physicians from claims of coercion. Overall, respecting patient autonomy and using a participatory communication style leads to better clinical care.
Enzyme And Metabolism
This document provides an overview of enzymes and metabolism. It defines enzymes as proteins that catalyze chemical reactions and discusses the lock-and-key and induced-fit models of enzyme action. It also explains factors that influence enzyme activity such as pH and temperature, and describes the roles of coenzymes and enzyme inhibitors.
"Choosing proper type of scaling", Olena Syrota
Imagine an IoT processing system that is already quite mature and production-ready and for which client coverage is growing and scaling and performance aspects are life and death questions. The system has Redis, MongoDB, and stream processing based on ksqldb. In this talk, firstly, we will analyze scaling approaches and then select the proper ones for our system.
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Chapter 3
The document discusses numerical methods for approximating integrals and solving non-linear equations. It introduces the trapezium rule for approximating integrals and provides examples of using the rule. It then discusses iterative methods like the iteration method and Newton-Raphson method for finding approximate roots of non-linear equations, providing examples of applying each method. The objectives are to enable students to use the trapezium rule and understand solving non-linear equations using iterative methods.
Lecture 3
Differential equations are used to model various phenomena in science and engineering, such as sound propagation, electromagnetism, chemical reactions, cooling objects, and radioactive decay. The document provides examples of using differential equations to model chemical reactions, Newton's law of cooling for cakes, and carbon-14 dating to determine the age of fossils.
Lecture 2
The document discusses methods for solving different types of first-order differential equations (DEs). It explains that separable DEs can be solved by separating the variables, while linear DEs require using an integrating factor to solve for the general solution. Non-separable DEs cannot be solved by separating variables alone. Examples are provided to demonstrate solving linear first-order DEs using an integrating factor to get the general solution and imposing initial/boundary conditions to get the particular solution.
Lecture 1
This document discusses differential equations and their solutions. It defines differential equations as equations involving derivatives. It notes that solutions can be general, containing an arbitrary constant, or particular, containing an initial value. Examples are given of separating variables and integrating to find the general solution to first order differential equations.
State Of Matter
The document discusses the three states of matter - solid, liquid, and gas. It explains the properties of gases and how gas particles are in constant random motion. The gas laws including Boyle's law, Charles' law, Avogadro's law, and the ideal gas equation are described. It also covers gas pressure, measurement of pressure using barometers and manometers, gas density calculations, and sample problems involving the gas laws.
Periodic Table 5
The document discusses several periodic properties of elements including atomic radius, ionization energy, and electronegativity. It explains that atomic radius decreases across a period as nuclear charge increases but increases down a group as electron shielding increases. Ionization energy generally increases across a period as it becomes harder to remove electrons but decreases down a group as electrons are farther from the nucleus. Electronegativity also increases across a period as nuclear attraction increases.
Periodic Table 2
The document discusses the development and structure of the modern periodic table. It describes how scientists like Newlands, Mendeleev, and Moseley contributed to organizing the elements based on their atomic structure. The modern periodic table arranges elements in periods and groups based on proton number and electron configuration. It explains the properties and classification of different blocks of elements like metals, non-metals, metalloids, alkali metals, alkaline earth metals, halogens and noble gases.
Matter2
The document discusses various concentration units used to express the amount of solute dissolved in a solution, including molarity (M), molality (m), percent by mass (% w/w), percent by volume (% w/v), parts per million (ppm), and mole fraction. It also covers concepts such as oxidation number, balancing redox equations, and stoichiometric calculations involving limiting reactants. Exercises with answers are provided to illustrate these topics.
Periodic Table4
The document summarizes key concepts about the periodic table including its organization based on electron configuration and blocks (s, p, d, f), rules for filling orbitals like the Pauli exclusion principle and Hund's rule, and examples of writing electronic configurations for elements like sodium, neon, aluminum, argon, and potassium.
Matter1
The document discusses several key concepts in chemistry:
1. It defines atoms and their subatomic particles (protons, neutrons, electrons), isotopes, relative atomic mass, and relative molecular mass.
2. It explains that matter is made up of elements, compounds, and mixtures and defines these terms. Atoms combine to form molecules or ions that make up compounds.
3. It introduces the mole as a unit containing 6.022x10^23 elementary entities that is used to relate the amount of a substance to its mass in grams.
Basic Cell Life 2
The document provides information about cell structure and functions:
- Cells are the basic unit of life and come in two main types: prokaryotic and eukaryotic. Prokaryotic cells lack membrane-bound organelles while eukaryotic cells have organelles.
- The cell membrane controls what enters and exits the cell. Transport proteins allow substances to move across the membrane through diffusion, osmosis, and active transport.
- The cell contains organelles that perform important functions like DNA storage in the nucleus, protein synthesis in the ribosomes, and energy production in mitochondria.
Liquid
Liquids have molecules that are close together and experience stronger attractive forces than gases, allowing them to flow freely within a container but take its shape. Viscosity, a liquid's resistance to flow, depends on molecular size and intermolecular forces, and increases for more complex, polar molecules. Surface tension results from attractive forces between liquid molecules and causes the surface to contract, while vaporization occurs when high-energy molecules overcome attractive forces and escape as a gas. Vapour pressure is affected by intermolecular forces and temperature, increasing with weaker forces and higher temperatures.
Active Transport New
Active transport requires cells to use energy in the form of ATP to move substances against their concentration gradient, such as the sodium-potassium pump transporting sodium and potassium ions across nerve cell membranes. The sodium-potassium pump uses ATP to pump 3 sodium ions out and 2 potassium ions into the cell against their gradients. Transport proteins also use active transport for molecules too large to pass through the membrane on their own, such as during endocytosis and exocytosis.
The Chemicals Of Life
The document provides an overview of basic biology concepts including:
1. Atoms and elements are the building blocks of all living things, with carbon, oxygen, hydrogen, and nitrogen being the most abundant elements in living organisms.
2. Molecules and compounds are formed through chemical bonds between atoms, including covalent, ionic, and hydrogen bonds.
3. Key biomolecules include water, carbohydrates like sugars and starches, lipids, and proteins which are made of amino acids and have unique structures and functions.
Photosynthesis
The document defines photosynthesis as the process by which plants and algae convert light energy to chemical energy to produce sugars. It occurs in chloroplasts through two stages: the light-dependent reactions where light energy is captured to produce ATP and NADPH, and the light-independent reactions where carbon dioxide is fixed into carbohydrates using the ATP and NADPH. The rate of photosynthesis is affected by light intensity, carbon dioxide concentration, and temperature, with an optimum level for each factor.
Medical Microbiology
Medical microbiology is the study of microorganisms that cause disease, such as bacteria, viruses, parasites and fungi. It examines the spread and diagnosis of infectious diseases. The goal of medical microbiology is to understand how microbes cause illness and find ways to prevent and treat infections.
Paternalism
Paternalism in medicine refers to doctors making decisions for patients that override the patients' wishes. There are two types: strong paternalism intentionally overrides patients against their will, while weak paternalism assumes patients cannot understand information or that some information would burden them.
Justifications for paternalism include the vulnerability of sick patients, medical expertise, and preserving patients' confidence in their doctors. However, most medical decisions are not urgent and patients should have time to understand their conditions and state their preferences. While doctors have expertise, personal values also influence treatment decisions. Disclosure of uncertainty need not decrease effectiveness if done to involve patients in their care.
Respiration
The document defines and explains the stages of aerobic respiration including glycolysis, the Krebs cycle, and the electron transport chain. Glycolysis breaks down glucose to produce pyruvate and ATP. The Krebs cycle further breaks down pyruvate to produce NADH, FADH2, ATP, and carbon dioxide. The electron transport chain uses NADH and FADH2 to produce ATP through oxidative phosphorylation. In total, the complete aerobic respiration of one glucose molecule produces approximately 30-32 molecules of ATP.
Preference Of Patients
Patient preferences are important for clinical, ethical, legal and psychological reasons. When patients make choices about their healthcare based on their own values and experience, and these preferences are respected by physicians, it improves health outcomes. Patients who feel they are collaborating in shared decision making have greater trust in their doctors and cooperate better. Documenting a patient's informed consent also protects physicians from claims of coercion. Overall, respecting patient autonomy and using a participatory communication style leads to better clinical care.
Enzyme And Metabolism
This document provides an overview of enzymes and metabolism. It defines enzymes as proteins that catalyze chemical reactions and discusses the lock-and-key and induced-fit models of enzyme action. It also explains factors that influence enzyme activity such as pH and temperature, and describes the roles of coenzymes and enzyme inhibitors.
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Essentials of Automations: Exploring Attributes & Automation Parameters
Immunity
- 1. IMMUNITY