This document provides an overview of how mathematics is used in daily life. It begins by giving examples of mathematical concepts like hexagons, fractions, rotational symmetry, and percentages that can be seen in nature. It then discusses how math helps in areas like understanding bulk discounts, spotting dodgy statistics, engineering, geometry applications in buildings, and CAD. Mathematics underlies many everyday things and having a strong understanding can help save money and critically analyze information.
Mathematics is found everywhere in nature and daily life. The Mathematics Everywhere & Everyday Exhibition explores how mathematics is expressed in natural patterns, shapes, games, time, astronomy, and real-world applications like banking and engineering. It introduces basic math concepts and shows how math has developed over time to better understand the world, with some challenges still remaining for mathematicians. The exhibition aims to engage visitors of all ages in the wonders and uses of math.
Mathematics is essential in many areas of daily life. It underlies natural phenomena like honeycomb structures [SENTENCE 1]. It is also useful for tasks like calculating savings from bulk purchases, spotting misleading statistics in advertisements, and mental arithmetic for quick calculations in shopping [SENTENCE 2]. Engineering, medicine, music, forensics and many other fields rely heavily on mathematical concepts like geometry, calculus, statistics and more to function [SENTENCE 3].
Mathematics has been used since ancient times, first developing with counting. It is useful in many areas of modern life like business, cooking, and art. Mathematics is the science of shape, quantity, and arrangement, and was used by ancient Egyptians to build the pyramids using geometry and algebra. Percentages can be understood using currency denominations, and fractions can be seen by dividing fruits and vegetables. Geometry, arithmetic, and calculus are applied in fields like construction, markets, engineering, and physics. Mathematics underlies structures and is important for careers requiring university degrees.
Mathematics is applied directly and indirectly in many aspects of daily life. [Geometry is used in nature like honeycomb cells and in car design with circles, rectangles, and quarter spheres.] [Medicine uses protein modeling and geometry.] [Engineering applies math to determine materials and solar energy.] [Forensics uses calculus to clarify blurred images.] [Trigonometry helps find heights of objects.] [Number theory creates codes and helps with bulk purchasing costs.] [Calculus studies change and is used in acceleration, satellite movement, and more.] Mathematics plays a key role in many fields.
For over 2000 years, mathematics has evolved from practical applications to a field of rigorous inquiry and back again. Early civilizations developed basic arithmetic and geometry to solve practical problems. The Greeks were first to study mathematics with a philosophical spirit, seeking inherent truths. Their work in geometry, algebra, and other areas remains valid today. Over centuries, mathematics spread across cultures through trade, exploration, and scholarship. It has grown increasingly specialized while also finding new applications, aided by computers. Today, mathematics is more valuable than ever as a way of understanding both natural and human systems through abstraction and modeling.
This document discusses the various ways that mathematics is applied in daily life. It provides examples of geometry being used in nature with honeycomb structures and in vehicles with their use of circles, rectangles, and spheres. Medicine and protein shapes are also discussed as an application of geometry. Engineering is described as relying heavily on mathematics to design structures like buildings and ensure clean water supply. The document concludes that mathematics is directly or indirectly used in many everyday applications and aspects of life.
Mathematics is the fundamental science that studies space, time, and number. It allows us to calculate and understand the composition of matter in the universe. People encounter math in many aspects of daily life, from setting alarms and weighing themselves, to following recipes, traveling, and engaging in hobbies like sports. Geometry, a branch of math, is used to measure lengths, areas, volumes, and describe the properties of shapes and figures. It has practical applications in tasks like determining how much carpet or paint is needed for a room, calculating garden fertilizer needs, and mechanical engineering.
The document discusses how mathematics is important in everyday life through examples like cooking, grocery shopping, dieting, and budgeting. It also explains how math is used in careers like crime detection, medicine, and finding landmines. Mathematics allows crimes to be solved through analyzing evidence like blurred number plates or skid marks at accident scenes. Medical imaging technologies like CAT scans, MRIs, and ultrasounds use math to process sound waves, magnetism, and X-rays into 3D images of the body. Math can also help locate tripwires in images to find hidden landmines. Overall, the document argues that mathematics is far more relevant to real life than some may think.
Mathematics is found everywhere in nature and daily life. The Mathematics Everywhere & Everyday Exhibition explores how mathematics is expressed in natural patterns, shapes, games, time, astronomy, and real-world applications like banking and engineering. It introduces basic math concepts and shows how math has developed over time to better understand the world, with some challenges still remaining for mathematicians. The exhibition aims to engage visitors of all ages in the wonders and uses of math.
Mathematics is essential in many areas of daily life. It underlies natural phenomena like honeycomb structures [SENTENCE 1]. It is also useful for tasks like calculating savings from bulk purchases, spotting misleading statistics in advertisements, and mental arithmetic for quick calculations in shopping [SENTENCE 2]. Engineering, medicine, music, forensics and many other fields rely heavily on mathematical concepts like geometry, calculus, statistics and more to function [SENTENCE 3].
Mathematics has been used since ancient times, first developing with counting. It is useful in many areas of modern life like business, cooking, and art. Mathematics is the science of shape, quantity, and arrangement, and was used by ancient Egyptians to build the pyramids using geometry and algebra. Percentages can be understood using currency denominations, and fractions can be seen by dividing fruits and vegetables. Geometry, arithmetic, and calculus are applied in fields like construction, markets, engineering, and physics. Mathematics underlies structures and is important for careers requiring university degrees.
Mathematics is applied directly and indirectly in many aspects of daily life. [Geometry is used in nature like honeycomb cells and in car design with circles, rectangles, and quarter spheres.] [Medicine uses protein modeling and geometry.] [Engineering applies math to determine materials and solar energy.] [Forensics uses calculus to clarify blurred images.] [Trigonometry helps find heights of objects.] [Number theory creates codes and helps with bulk purchasing costs.] [Calculus studies change and is used in acceleration, satellite movement, and more.] Mathematics plays a key role in many fields.
For over 2000 years, mathematics has evolved from practical applications to a field of rigorous inquiry and back again. Early civilizations developed basic arithmetic and geometry to solve practical problems. The Greeks were first to study mathematics with a philosophical spirit, seeking inherent truths. Their work in geometry, algebra, and other areas remains valid today. Over centuries, mathematics spread across cultures through trade, exploration, and scholarship. It has grown increasingly specialized while also finding new applications, aided by computers. Today, mathematics is more valuable than ever as a way of understanding both natural and human systems through abstraction and modeling.
This document discusses the various ways that mathematics is applied in daily life. It provides examples of geometry being used in nature with honeycomb structures and in vehicles with their use of circles, rectangles, and spheres. Medicine and protein shapes are also discussed as an application of geometry. Engineering is described as relying heavily on mathematics to design structures like buildings and ensure clean water supply. The document concludes that mathematics is directly or indirectly used in many everyday applications and aspects of life.
Mathematics is the fundamental science that studies space, time, and number. It allows us to calculate and understand the composition of matter in the universe. People encounter math in many aspects of daily life, from setting alarms and weighing themselves, to following recipes, traveling, and engaging in hobbies like sports. Geometry, a branch of math, is used to measure lengths, areas, volumes, and describe the properties of shapes and figures. It has practical applications in tasks like determining how much carpet or paint is needed for a room, calculating garden fertilizer needs, and mechanical engineering.
The document discusses how mathematics is important in everyday life through examples like cooking, grocery shopping, dieting, and budgeting. It also explains how math is used in careers like crime detection, medicine, and finding landmines. Mathematics allows crimes to be solved through analyzing evidence like blurred number plates or skid marks at accident scenes. Medical imaging technologies like CAT scans, MRIs, and ultrasounds use math to process sound waves, magnetism, and X-rays into 3D images of the body. Math can also help locate tripwires in images to find hidden landmines. Overall, the document argues that mathematics is far more relevant to real life than some may think.
Mathematics applied in major fields of science and technologyshreetmishra98
This document discusses the history and importance of mathematics. It notes that mathematics has become essential in fields like robotics, space research, sports, biology, and information technology. It then discusses some key developments in mathematics throughout history, including how it became integrated into modern science in the 18th century. Several important mathematician's contributions to early computers are also outlined, such as Pascal's calculating machine and Babbage's Analytical Engine. The document ends by discussing ongoing research into modeling the human brain mathematically.
This document discusses the many ways that mathematics is present in daily life. Some examples given include using math for discounts, banking transactions, foreign exchange, stocks and shares. Other concepts discussed that are useful in daily life include algebra, statistics such as mean, median and mode, calculus, number theory, graph theory, geometry, trigonometry, and how math is also present in nature, biology, and medicine. Mathematics underlies many everyday processes and patterns and having a strong understanding of it can help save money and make better financial decisions.
This document discusses the various ways that mathematics is applied in daily life. It provides examples of geometry in nature like honeycomb structures, the use of shapes in car design, how mathematics models protein shapes in medicine, the role of mathematics in engineering for building structures and generating energy, its use in forensic science to clarify blurred images, and concludes that these are just a few examples of its many applications we encounter every day.
This document discusses the importance of mathematics in daily life through several examples. It introduces some famous mathematicians like Euler, Newton, Gauss and von Neumann and their contributions. It then explains how mathematics is applied in areas like cars, forensics, engineering and commerce. Specific topics in mathematics that are useful in daily life are also outlined, including calculus, algebra, statistics, geometry and commercial mathematics. In the end, it emphasizes that mathematics provides the foundation for science, art and music by enabling the study of structures and relationships.
Mathematics is essential in daily life and has a long history of practical applications. It first arose from needs to count and measure, and early civilizations used math for tasks like construction and accounting. Over millennia, mathematical concepts and applications have expanded greatly. Today, areas like statistics, calculus, and other quantitative fields inform domains from politics to transportation to resource management. Many people misunderstand math as only involving formulas, but it really involves abstract problem-solving and modeling real-world situations. Core topics in daily use include commercial math, algebra, statistics, and financial calculations for tasks like budgeting and investing.
Mathematics is essential in everyday life. It is used in many activities like cooking, gardening, sports, healthcare, banking, architecture, fashion, communication, shopping, and entertainment. Mathematics is involved in tasks like measuring ingredients, calculating dosages, laying out designs, comparing prices, and creating special effects. It enables important functions and is embedded in nearly every domain of modern life, often working behind the scenes to help complete even simple daily activities.
This document provides an overview of mathematics and its relationship to concepts of beauty, architecture, and human life. It discusses how mathematical patterns like the golden ratio and Fibonacci sequence are found in nature and influence concepts of beauty. It also explores how mathematics influenced ancient architecture and how geometry guides both fields. Additionally, it examines how mathematicians think and how numbers are fundamental to mathematics, similar to how words are to language. The document aims to convey the breadth of mathematics and its applications beyond numerical calculations.
This slide was presented by the Maths Department of Cochin Refineries School for the Inter-School workshop conducted as a part of World Mathematics Day celebration. "Mathematics in day to day life"
Maths is important in everyday life and underlies many common activities and processes. It is used in commerce, banking, foreign exchange, stocks and shares, and calculations involving profit, loss, percentages, ratios, and proportions. Algebra helps solve problems involving pay rates that increase over time. Statistics aids in data collection, analysis, interpretation, presentation, and prediction. Other areas of math like geometry, number theory, and symmetry are applied in fields such as biology, medicine, architecture, and more.
This document contains several fun facts and tricks about mathematics. It discusses large numbers like quadrillion and googol. It also shares a special number (142857) that maintains its digits when multiplied. Finally, it provides 4 number tricks that involve thinking of a number and performing math operations to reveal the answer.
Presented by:
Lyndon Earl Dalen
Niño Zedhic M. Villanueva
Daryl Sinugbuhan
Nico Bryan Sta. Ana
Paolo Fortun
Christian James Salvacion
Albert Limbaña
Elijah Hope Diamante
This document discusses the importance and applications of mathematics. It begins with an introduction and then discusses how mathematics is used in everyday life and various careers. Specific topics in mathematics like arithmetic, geometry, and trigonometry are explained along with their real-world uses. The document emphasizes that mathematics is essential for many fields and should be taken seriously by students to keep future career options open. It concludes by quoting that mathematics forms logical thinking from an early age.
This document discusses the prevalence and importance of mathematics in everyday life. It provides examples of how mathematics is used in areas like health, weather, transportation, society, and more. While some applications are directly observable, others involve more complex systems that are still being understood mathematically, like DNA. The document also discusses the historical foundations of mathematics over centuries, with concepts building upon each other like a pyramid, and provides a brief biography of the mathematician Aryabhata, who made important contributions in astronomy and mathematics.
This document discusses the history and uses of mathematics in daily life. It provides a brief overview of some early mathematical texts from ancient Egypt and Babylon. It then gives examples of how math is used for cooking, money, and telling time. The document concludes by listing 10 math examples involving operations like addition, multiplication, division, and place value.
Mathematics guides all sciences and social sciences by providing principles and models. During the 19th century, mathematics was seen as abstract but it is now widely applied across many fields from engineering to genetics due to developments in applied mathematics spurred by World War 2 and Sputnik. Modern technologies like CAT scanners and economic models all depend on sophisticated mathematical foundations. Engineering in particular utilizes differential equations, geometry, and other areas of mathematics.
This document provides a high-level overview of the history of mathematics, levels of mathematics taught at different grades, famous mathematicians, unsolved math problems, and resources for math games and jokes. It discusses important developments like the first evidence of counting 50,000 BC, the definition of the 360 degree circle in 180 BC, the first trigonometry in 140 BC, and the proofs of Fermat's Last Theorem in 1994 and the Four Color Theorem in the 1970s using computers.
it helps the students to know the general description about mathematics. i am sure it would be useful for the for the grade 2,3,4,5,and 6 students while they are studying.
This document provides an overview of the content covered in different sections of an interactive mathematics exhibit, including counting, patterns in nature, symmetry, shapes and patterns, games and puzzles, time and astronomy, challenges in mathematics, real-life applications, and calculus. Some key topics mentioned are the Fibonacci sequence in plants, symmetry in art and the human body, properties of shapes like circles and the Möbius strip, the use of math in games, how ancient cultures measured time based on astronomical cycles, outstanding challenges in modern math, the role of cryptography, and an introduction to calculus concepts like limits, slopes and tangents.
Mathematics is the science of logic, quantity, and arrangement. It is used in many aspects of daily life without realizing it, whether cooking, sports, gardening, banking, navigation, or architecture. Math concepts like ratio, proportion, probability, mensuration, trigonometry, and geometry are essential for tasks like following recipes in cooking, analyzing sports performance, measuring land for gardening, calculating interest for banking, using coordinates for navigation, and constructing buildings. Mathematics is a universal language that is important everywhere.
Mathematics applied in major fields of science and technologyshreetmishra98
This document discusses the history and importance of mathematics. It notes that mathematics has become essential in fields like robotics, space research, sports, biology, and information technology. It then discusses some key developments in mathematics throughout history, including how it became integrated into modern science in the 18th century. Several important mathematician's contributions to early computers are also outlined, such as Pascal's calculating machine and Babbage's Analytical Engine. The document ends by discussing ongoing research into modeling the human brain mathematically.
This document discusses the many ways that mathematics is present in daily life. Some examples given include using math for discounts, banking transactions, foreign exchange, stocks and shares. Other concepts discussed that are useful in daily life include algebra, statistics such as mean, median and mode, calculus, number theory, graph theory, geometry, trigonometry, and how math is also present in nature, biology, and medicine. Mathematics underlies many everyday processes and patterns and having a strong understanding of it can help save money and make better financial decisions.
This document discusses the various ways that mathematics is applied in daily life. It provides examples of geometry in nature like honeycomb structures, the use of shapes in car design, how mathematics models protein shapes in medicine, the role of mathematics in engineering for building structures and generating energy, its use in forensic science to clarify blurred images, and concludes that these are just a few examples of its many applications we encounter every day.
This document discusses the importance of mathematics in daily life through several examples. It introduces some famous mathematicians like Euler, Newton, Gauss and von Neumann and their contributions. It then explains how mathematics is applied in areas like cars, forensics, engineering and commerce. Specific topics in mathematics that are useful in daily life are also outlined, including calculus, algebra, statistics, geometry and commercial mathematics. In the end, it emphasizes that mathematics provides the foundation for science, art and music by enabling the study of structures and relationships.
Mathematics is essential in daily life and has a long history of practical applications. It first arose from needs to count and measure, and early civilizations used math for tasks like construction and accounting. Over millennia, mathematical concepts and applications have expanded greatly. Today, areas like statistics, calculus, and other quantitative fields inform domains from politics to transportation to resource management. Many people misunderstand math as only involving formulas, but it really involves abstract problem-solving and modeling real-world situations. Core topics in daily use include commercial math, algebra, statistics, and financial calculations for tasks like budgeting and investing.
Mathematics is essential in everyday life. It is used in many activities like cooking, gardening, sports, healthcare, banking, architecture, fashion, communication, shopping, and entertainment. Mathematics is involved in tasks like measuring ingredients, calculating dosages, laying out designs, comparing prices, and creating special effects. It enables important functions and is embedded in nearly every domain of modern life, often working behind the scenes to help complete even simple daily activities.
This document provides an overview of mathematics and its relationship to concepts of beauty, architecture, and human life. It discusses how mathematical patterns like the golden ratio and Fibonacci sequence are found in nature and influence concepts of beauty. It also explores how mathematics influenced ancient architecture and how geometry guides both fields. Additionally, it examines how mathematicians think and how numbers are fundamental to mathematics, similar to how words are to language. The document aims to convey the breadth of mathematics and its applications beyond numerical calculations.
This slide was presented by the Maths Department of Cochin Refineries School for the Inter-School workshop conducted as a part of World Mathematics Day celebration. "Mathematics in day to day life"
Maths is important in everyday life and underlies many common activities and processes. It is used in commerce, banking, foreign exchange, stocks and shares, and calculations involving profit, loss, percentages, ratios, and proportions. Algebra helps solve problems involving pay rates that increase over time. Statistics aids in data collection, analysis, interpretation, presentation, and prediction. Other areas of math like geometry, number theory, and symmetry are applied in fields such as biology, medicine, architecture, and more.
This document contains several fun facts and tricks about mathematics. It discusses large numbers like quadrillion and googol. It also shares a special number (142857) that maintains its digits when multiplied. Finally, it provides 4 number tricks that involve thinking of a number and performing math operations to reveal the answer.
Presented by:
Lyndon Earl Dalen
Niño Zedhic M. Villanueva
Daryl Sinugbuhan
Nico Bryan Sta. Ana
Paolo Fortun
Christian James Salvacion
Albert Limbaña
Elijah Hope Diamante
This document discusses the importance and applications of mathematics. It begins with an introduction and then discusses how mathematics is used in everyday life and various careers. Specific topics in mathematics like arithmetic, geometry, and trigonometry are explained along with their real-world uses. The document emphasizes that mathematics is essential for many fields and should be taken seriously by students to keep future career options open. It concludes by quoting that mathematics forms logical thinking from an early age.
This document discusses the prevalence and importance of mathematics in everyday life. It provides examples of how mathematics is used in areas like health, weather, transportation, society, and more. While some applications are directly observable, others involve more complex systems that are still being understood mathematically, like DNA. The document also discusses the historical foundations of mathematics over centuries, with concepts building upon each other like a pyramid, and provides a brief biography of the mathematician Aryabhata, who made important contributions in astronomy and mathematics.
This document discusses the history and uses of mathematics in daily life. It provides a brief overview of some early mathematical texts from ancient Egypt and Babylon. It then gives examples of how math is used for cooking, money, and telling time. The document concludes by listing 10 math examples involving operations like addition, multiplication, division, and place value.
Mathematics guides all sciences and social sciences by providing principles and models. During the 19th century, mathematics was seen as abstract but it is now widely applied across many fields from engineering to genetics due to developments in applied mathematics spurred by World War 2 and Sputnik. Modern technologies like CAT scanners and economic models all depend on sophisticated mathematical foundations. Engineering in particular utilizes differential equations, geometry, and other areas of mathematics.
This document provides a high-level overview of the history of mathematics, levels of mathematics taught at different grades, famous mathematicians, unsolved math problems, and resources for math games and jokes. It discusses important developments like the first evidence of counting 50,000 BC, the definition of the 360 degree circle in 180 BC, the first trigonometry in 140 BC, and the proofs of Fermat's Last Theorem in 1994 and the Four Color Theorem in the 1970s using computers.
it helps the students to know the general description about mathematics. i am sure it would be useful for the for the grade 2,3,4,5,and 6 students while they are studying.
This document provides an overview of the content covered in different sections of an interactive mathematics exhibit, including counting, patterns in nature, symmetry, shapes and patterns, games and puzzles, time and astronomy, challenges in mathematics, real-life applications, and calculus. Some key topics mentioned are the Fibonacci sequence in plants, symmetry in art and the human body, properties of shapes like circles and the Möbius strip, the use of math in games, how ancient cultures measured time based on astronomical cycles, outstanding challenges in modern math, the role of cryptography, and an introduction to calculus concepts like limits, slopes and tangents.
Mathematics is the science of logic, quantity, and arrangement. It is used in many aspects of daily life without realizing it, whether cooking, sports, gardening, banking, navigation, or architecture. Math concepts like ratio, proportion, probability, mensuration, trigonometry, and geometry are essential for tasks like following recipes in cooking, analyzing sports performance, measuring land for gardening, calculating interest for banking, using coordinates for navigation, and constructing buildings. Mathematics is a universal language that is important everywhere.
This document discusses how geometry is used in daily life and provides examples. It begins by defining basic geometric concepts like segments, congruent angles/shapes, midpoints, perpendicular lines, and obtuse angles. It then gives examples of how geometry is used in fields like computer graphics, computer-aided design, robotics, medical imaging, structural engineering, protein modeling, and physics/chemistry. Specific applications and images are provided. It concludes by highlighting how geometric shapes are used to construct man-made structures from buildings to vehicles.
This document provides an overview of geometry and how it is used. It acknowledges sources and indicates this presentation is for student benefit only. Geometry studies size, shape, and spatial relationships. It is used in computer graphics, engineering, robotics, medical imaging, and other fields. Examples of geometric structures in buildings like wigwams, skyscrapers, and cars are presented. Symmetry is also discussed as an important geometric concept seen in nature and science.
This document discusses crop circles and provides a step-by-step reconstruction of a crop circle found in Bishop Cannings, Wiltshire, England in 2000. It begins with background on crop circles, their locations and sizes. It then shows a photo of the Bishop Cannings crop circle and explains it will reconstruct this pattern using GeoGebra geometry software. The reconstruction takes 10 steps, from drawing initial circles and lines to the final outer border construction. Readers are encouraged to reconstruct other circles using similar steps and the free GeoGebra software.
Geometry is a branch of mathematics concerned with measuring and studying the properties and relationships of points, lines, angles, surfaces and solids. It has many practical applications in areas like carpentry, painting, gardening, construction and more. Geometry is also used in many occupations including mechanical engineering, surveying, mathematics, astronomy, graphic design and computer imaging.
The document discusses three-dimensional shapes and their properties. It defines 3D shapes as having length, width and height. Various 3D shapes are described such as cuboids, cubes, prisms, cylinders, spheres, pyramids and polyhedra. Specific 3D shapes like triangular prisms and hexagonal prisms are defined by their faces, corners and edges. The document asks the reader to identify 3D shapes from different net diagrams.
Le Corbusier was a pioneering Swiss-French architect and designer who was influential in the development of modern architecture. Some of his major works included Vers une Architecture, Urbanisme, and La Ville Radieuse. In Vers une Architecture, he argued that architecture should be based on rationality and modern engineering principles rather than historical styles. He advocated for the use of primary geometric forms and surfaces in buildings and the importance of regulating lines and plans in architectural design. Le Corbusier also promoted new approaches to mass housing that took advantage of modern construction technologies and standardized parts to provide efficient and affordable housing for workers.
The document provides lesson material on differentiating between plane and solid figures. It includes introductory activities to identify 2D and 3D shapes. Examples are given of plane figures like circles and triangles as well as solid figures such as spheres and cubes. Students are asked to name shapes in images of buildings and monuments as either plane or solid figures. Key differences between the two types of figures are discussed, such as plane figures having two dimensions of length and width, while solid figures have three dimensions of length, width and height.
Geometry in Nature - the DNA of Design for kitchens and bathrooms; art, paint...Mark Rosenhaus
The Golden Rectangle and Fibonacci numbers reveal the secret geometry of pleasing proportions found in nature. You will see the balance of forms behind the genius of Leonardo DaVinci and Frank Lloyd Wright. This program will energize your intuition in creating and selling eye-catching products and kitchen designs.
Learn How Da Vinci's Golden Proportions Create Beautiful DesignsMark Rosenhaus
The document discusses how Leonardo Da Vinci's Vitruvian Man and the proportions found in nature, such as the Fibonacci sequence and the Golden Rectangle, are used to create beautiful designs. It provides many examples of how proportions of 62% are used in architecture like the Parthenon and Notre Dame, as well as art, design of objects like chairs and kitchens, and the human face and body. Diagonal lines and placement are also discussed as techniques to direct attention and create movement, balance, and harmony.
The document describes developing a two-dimensional drawing of the structure of a housing module to be used as a vaccination center. It provides instructions to label the elements of the structure, including the walls, roof, and base, and to calculate the perimeter, area, and total surface area. Tables are included to record the dimensions and measurements of each element of the prismatic housing structure.
The document describes four basic plane shapes: rectangles, squares, triangles, and circles. For each shape, it provides a picture example and discusses the number of sides and corners. It also lists common real-world objects that have each shape, such as desks being rectangular, windows being square, tools and pyramids being triangular, and the Earth, Sun and clocks being circular.
This document introduces a lesson on inequalities in triangles. It begins by posing focus questions about how artists, contractors, and engineers use triangular features in their designs and how mathematical concepts justify these designs. It then outlines the lessons and concepts that will be covered, including theorems on triangle inequalities and their applications. The document includes a pre-assessment to gauge the reader's existing knowledge on triangle inequalities. It provides examples of triangular designs and asks the reader to analyze them for uses of triangle inequalities. Finally, it introduces an activity where the reader will construct a "concept museum" to demonstrate their understanding of triangle inequalities through responding to tasks related to diagrams of triangles.
Mathematics is present in everyday activities like cooking, decorating, shopping, business, and more. It is used to measure quantities of ingredients in cooking, surface areas when painting rooms, calculating sales and profits in business. Geometry specifically is applied in building structures, kitchen utensils, sports equipment, traffic signals, musical instruments, and transportation. Math underlies many activities in daily life without us consciously realizing it.
Well presented & detailed project file on 3D Figures for those who loves math. Do like, share and comment. And offcourse hit the follow button so that if i post more things you'll be notified.
This document provides instructions for drawing various objects and subjects. It begins with basic techniques like drawing curves with a series of dots and making designs with a compass. It then provides step-by-step diagrams to show how to draw things like flowers, animals, landscapes and more. The diagrams break the subjects down into simple geometric shapes and lines to make them easy for a young artist to replicate. The document aims to teach appreciation of form and line in artwork through these approachable step-by-step examples.
The document describes the design of a modular "life pod" system intended to address housing needs in refugee camps and disaster relief situations. The stackable pods are designed for efficient transportation and construction of temporary housing communities. Sketches show a locking stacking system with integrated ladder. The final CAD concept features a corrugated guide system allowing simple stacking. The lightweight plastic pods would provide living quarters and supplies for occupants. This collaborative design solution aims to better utilize space and resources for temporary housing worldwide.
This document summarizes Libby Weiler's portfolio from 2007-2011 during her studies in the Fay Jones School of Architecture. It includes 3-D design projects focusing on contradicting beauty standards and hand drawings. Later projects include architectural designs for a banker's retreat with public and private spaces, a reading room connecting individuals to spaces through materials, and an interfaith mausoleum with complex geometries. Other works include a computer-generated butterfly made of typography, color studies, and a game table incorporating woodworking principles. Photography was also used as inspiration and a relaxing hobby throughout her studies.
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The Indus Valley Civilization was one of the world's earliest urban civilizations located in northwestern India and eastern Pakistan. It flourished between 3300 BCE and 1300 BCE, covering over 1 million square kilometers. Major cities included Harappa and Mohenjo-Daro, which had sophisticated urban planning with standardized bricks, sewage systems, and multi-story buildings. The Indus Valley Civilization developed new agricultural, metallurgical, and craft techniques and engaged in extensive regional trade. Around 1800 BCE, the civilization began to decline due to changing climate or flooding of the Ghaggar Hakra river system, and most cities were abandoned by 1300 BCE.
1) The document discusses the challenges facing libraries in developing digital strategies and managing digital assets in a changing environment.
2) It notes the difficulty stems from technological convergence and lack of recognized patterns or models, and the impact of digital library research is unclear regarding changing user behaviors.
3) The world is changing rapidly due to factors like limited application platforms, a vendor environment unprepared to support new forms of content, and a history within libraries of consumption rather than contribution. Libraries need to think holistically about their role rather than focusing solely on digital aspects.
The document discusses the climate and monsoon patterns of India. It describes the jet streams that flow over India at 27-30 degrees north latitude and influence the regional climate. The monsoon winds are dominant, with seasonal reversals that were first observed by sailors and traders. The monsoon is influenced by several key factors, including differential heating of land and water, the shift of the Intertropical Convergence Zone, high pressure east of Madagascar, and heating of the Tibetan Plateau. Climate refers to average weather conditions over a long period of time, while weather describes atmospheric conditions at a point in time.
1. The document is a presentation by Bharat Aggarwal on asteroids and comets.
2. It discusses how asteroids and comets formed in the early solar system and their orbits, with minor planets mostly located between Mars and Jupiter.
3. Comets formed farther out in the solar system and were flung outward by planetary encounters, while some became trapped in the inner solar system.
A, an, and the are called articles that are used with nouns. A and an are used with singular countable nouns when first mentioned to indicate one is being referred to. The is used when the listener or reader would know which specific noun is being talked about. The is generally not used with plural nouns when referring to an entire class, but may be used to indicate a specific group.
The document discusses air pollution, its causes, effects, and health impacts. It defines air pollution and lists several primary and secondary pollutants such as sulfur oxides, nitrogen oxides, carbon monoxide, particulate matter, and volatile organic compounds. Sources of air pollution include industry, vehicles, and indoor sources. Health effects of air pollution include increased risk of respiratory and cardiac disease as well as premature death. Specific conditions like cystic fibrosis and COPD are exacerbated by air pollution.
An atmosphere is a layer of gases surrounding a celestial body held in place by gravity. It is retained longer if gravity is high and temperature is low. Some planets consist mainly of gases, with only an outer layer considered the atmosphere. Air pollution is the introduction of chemicals, particles or biological materials into the atmosphere that are harmful to living things or damage the environment. Sources include vehicles, industry, volcanoes and wildfires. Air pollution has negative health effects like respiratory and cardiac issues and environmental effects like global warming and ozone depletion. Solutions include using cleaner fuels, improving energy efficiency and reducing emissions.
Reproduction is the process by which living organisms produce new individuals of the same species. There are two main types of reproduction: asexual reproduction, which involves a single parent producing new individuals, and sexual reproduction, which involves genetic contribution from two parents. In humans, the male reproductive system produces sperm and the female reproductive system produces eggs. During sexual intercourse, sperm from the male enters the female's vagina and travels to the egg, where fertilization can occur if a sperm fuses with the egg to form a zygote.
This document discusses several topics related to animal conservation:
1) It defines conservation as attempting to prevent animal species from going extinct, and defines endangered species as those at risk of extinction.
2) It discusses achievements in conservation, like laws protecting endangered species, and encourages public involvement through organizations like Biosphere Expeditions.
3) It explains that climate change is a major threat causing more species to become endangered due to rising temperatures interfering with reproduction.
India's Independence Day is celebrated on August 15th to commemorate the end of British rule in 1947. On this national holiday, the Prime Minister hoists the national flag in New Delhi while families celebrate by decorating their homes in the colors of the Indian flag and getting together for meals and picnics. This day also marks the division of India and Pakistan into two separate countries.
This document is a summary of a presentation given by researchers at the Population Reference Bureau on August 19, 2008 about global population trends. It finds that the demographic divide between more and less developed countries is widening, with less developed countries having growing populations with many young people, while more developed countries have aging populations with fewer young people. It also notes that while global population is projected to continue growing significantly in the coming decades, reaching over 9 billion by 2050, continued decline in fertility rates in developing countries is necessary to realize these projections.
4 ppt on the challenge of poverty (short version) by bp broderick pabilloDlgltsbm
The document discusses the Catholic Church's teachings around poverty and the poor. It defines material poverty as the primary meaning of poverty, as mentioned in the Bible and Church documents. It also outlines the different social classes in the Philippines based on household income, with the majority (68%) considered low-income Class D, and 23% as very poor Class E. The document calls on Catholics to have genuine concern and love for the poor, and discusses the Church's role in promoting justice and a preferential option for the poor.
The thyroid gland, located in the lower neck, produces hormones that regulate metabolism, heart rate, body temperature, growth and development. It has a butterfly shape with two lobes attached by a middle part. The thyroid uses iodine to produce thyroxine and triiodothyronine hormones, with thyroxine regulating how the body metabolizes carbohydrates, proteins and fats.
Medha is a student in class IX-B at G.L.T. Saraswati Bal Mandir school with roll number 09 and date of birth February 24, 1999. Her favorite subject is English and her hobbies include reading storybooks and listening to music.
This document is a summary of a presentation given by researchers at the Population Reference Bureau on August 19, 2008 about global population trends. It finds that the demographic divide between more and less developed countries is widening, with less developed countries having growing populations with many young people, while more developed countries have aging populations with fewer young people. It also notes that while global population is projected to continue growing significantly in the coming decades, reaching over 9 billion by 2050, continued decline in fertility rates in developing countries is necessary to achieve UN population projections.
4 ppt on the challenge of poverty (short version) by bp broderick pabilloDlgltsbm
The document discusses the Catholic Church's teachings around poverty and the poor. It defines material poverty as the most basic meaning of poverty. It also discusses the different social classes in the Philippines based on household income, with the majority (68%) considered low-income class D. Several indicators of widespread poverty in the Philippines are provided, such as many living on $1 or $2 per day. The document advocates for a genuine concern and love for the poor, in line with the teachings of Jesus Christ.
Photosynthesis is the process by which plants, algae, and some bacteria use sunlight, water and carbon dioxide to produce oxygen and energy in the form of glucose. It occurs in the chloroplasts in leaves, where chlorophyll and other pigments absorb sunlight and use its energy to convert carbon dioxide and water into oxygen and glucose. This process provides a crucial source of food for plants and oxygen for animals, and removes carbon dioxide from the air.
An atmosphere is a layer of gases surrounding a celestial body held in place by gravity. It is retained longer if gravity is high and temperature is low. Some planets consist mainly of gases, with only an outer layer considered the atmosphere. Air pollution is the introduction of chemicals, particles or biological materials into the atmosphere that are harmful to living things or damage the environment. Sources include vehicles, industry, wildfires and volcanoes. Air pollution has health effects like respiratory and cardiac issues and environmental effects like global warming, ozone layer depletion and the greenhouse effect. Solutions include using cleaner fuels, improving energy efficiency and reducing emissions.
This document discusses several topics related to animal conservation:
1) It defines conservation as attempting to ensure animal species do not become extinct, and defines endangered species.
2) It discusses achievements in conservation like creating protected areas and international agreements to protect species.
3) It explains that climate change is a major threat causing more species to become endangered due to rising temperatures interfering with reproduction.
4) It notes that while conservation and animal welfare often overlap, there can be conflicts, such as when protecting one species requires killing others, and discusses how the two causes could cooperate more effectively.
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2. ABSTRACT
INTRODUCTION-MATHS IN NATURE-MATHS
HELP OUR LIVES-MATHS IN
ENGINEERING-GEOMETRY IN CIVIL-
MATHS IN MEDICINE-MATHS IN
BIOLOGY-MATHS IN MUSIC-MATHS IN
FORENSIC-CONCLUSION.
3. INTRODUCTION
What use is maths in everyday life?
"Maths is all around us, it's everywhere we go". It's a lyric
that could so easily have been sung by Wet Wet Wet. It may
not have made it onto the Four Weddings soundtrack, but it
certainly would have been profoundly true.
Not only does maths underlie every process and pattern that
occurs in the world around us, but having a good
understanding of it will help enormously in everyday life.
Being quick at mental arithmetic will save you pounds in the
supermarket, and a knowledge of statistics will help you see
through the baloney in television adverts or newspaper
articles, and to understand the torrent of information you'll
hear about your local football team.
5. HEXAGON IN NATURE
A honeycomb is an array of hexagonal (six-
sided) cells, made of wax produced by
worker bees. Hexagons fit together to fill all
the available space, giving a strong
structure with no gaps. Squares would also
fill the space, but would not give a rigid
structure. Triangles would fill the space and
be rigid, but it would be difficult to get
honey out of their corners.
7. You can cut all sorts of fruit and
vegetables into fractions: cut a
tomato in half, an apple into
quarters or a banana into eighths,
although you would have to be very
accurate. An orange might have 20
segments, and each would be a
20th of the whole orange
9. A globe is a good example of rotational
symmetry in a three-dimensional
object. The globe keeps its shape as
it is turned on its stand around an
imaginary line between the north
and south poles. The globe shown
here dates from the late 15th or
early 16th century and is one of the
earliest three-dimensional
representations of the surface of the
Earth. It can be found in the
Historical Academy in Madrid.
11. Using money is a good way of
understanding percentages. As there
are 100 pence in £1, one hundredth of
£1 is therefore 1 pence, meaning that 1
per cent of £1 is 1 pence. From this we
can calculate that 50 per cent of £1 is 50
pence. This photograph shows three
British currency notes: a £5 note, a £10
note and a £20 note. If 50 pence is 50
per cent of £1, then £5 is 50 per cent of
£10, and so £10 is 50 per cent of £20.
13. • A pocket calculator is one way in which
decimals are used in everyday life. The
value of each digit shown is determined
by its place in the entire row of
numbers on the screen. In this
photograph, the 7 is worth 700 (seven
hundreds), the 8 is worth 80 (eight tens)
and the 6 is worth 6 (six ones).
16. An article in the Sunday Times in June 2004
revealed the fact that you can't even assume
that buying larger bags of exactly the same
pasta would work out cheaper. It said that in
many of the supermarkets buying in bulk, for
example picking up a six-pack of beer rather
than six single cans, was in fact more expensive.
The newspaper found that the difference can be
as much as 30%. The supermarket chains may
be exploiting the assumption people have that
buying in bulk is cheaper, but if you work it out
quickly in your head you'll never be caught out.
18. How many adverts have you heard that
make some claim such as "8 out of 10
women prefer our shampoo to their old
one"? Did those enthusiasts think it was
greatly better, or not really much of a
difference? What about the other 20%?
They might have absolutely hated it
because it made all their hair fall out! And
what question were they answering: that
they really believe it made their hair any
cleaner than a different shampoo, or that
they preferred the smell, or shape of the
bottle?
19. MATHS IN
ENGINEERING
• If it is rainy and cold outside, you
will be happy to stay at home a
while longer and have a nice hot
cup of tea. But someone has built
the house you are in, made sure it
keeps the cold out and the
warmth in, and provided you with
running water for the tea. This
someone is most likely an
engineer. Engineers are
responsible for just about
everything we take for granted in
the world around us, from tall
buildings, tunnels and football
stadiums, to access to clean
drinking water. They also design
and build vehicles, aircraft, boats
and ships. What's more, engineers
help to develop things which are
important for the future, such as
generating energy from the sun,
wind or waves. Maths is involved
in everything an engineer does,
whether it is working out how
much concrete is needed to build
20. GEOMETRY IN CIVIL
This a pictures with some basic
geometric structures. This is a
modern reconstruction of the
English Wigwam. As you can
there the door way is a
rectangle, and the wooden
panels on the side of the
house are made up of planes
and lines. Except for really
planes can go on forever. The
panels are also shaped in the
shape of squares. The house
itself is half a cylinder.
21. LINES&PLANES
Here is another modern
reconstruction if of a
English Wigwam. This
house is much similar to
the one before. It used a
rectangle as a doorway,
which is marked with the
right angles. The house
was made with sticks
which was straight lines at
one point. With the sticks
in place they form squares
when they intercepts. This
English Wigwam is also
half a cylinder.
22. PARALLELOGRAMS
This is a modern day
skyscraper at MIT.
The openings and
windows are all
made up of
parallelograms.
Much of them are
rectangles and
squares. This is a
parallelogram kind of
building.
23. CUBES AND CONES
This is the Hancock Tower, in
Chicago. With this image,
we can show you more 3D
shapes. As you can see the
tower is formed by a large
cube. The windows are
parallelogram. The other
structure is made up of a
cone. There is a point at the
top where all the sides
meet, and There is a base
for it also which makes it a
cone.
24. SPHERE AND CUBE
This is another building at
MIT. this building is made
up of cubes, squares and
a sphere. The cube is the
main building and the
squares are the windows.
The doorways are
rectangle, like always. On
this building There is a
structure on the room that
is made up of a sphere.
25. PYRAMIDS
This is the Pyramids, in
Indianapolis. The pyramids
are made up of pyramids, of
course, and squares. There are
also many 3D geometric
shapes in these pyramids. The
building itself is made up of a
pyramid, the windows a made
up of tinted squares, and the
borders of the outside walls
and windows are made up of
3D geometric shapes.
26. RECTANGLES AND
CIRCLES
This is a Chevrolet SSR Roadster
Pickup. This car is built with
geometry. The wheels and
lights are circles, the doors
are rectangular prisms, the
main area for a person to
drive and sit in it a half a
sphere with the sides chopped
off which makes it 1/4 of a
sphere. If a person would look
very closely the person would
see a lot more shapes in the
car. Too many to list.
27. GEOMETRY IN CAD
Geometry is a part of
mathematics concerned with
questions of size, shape, and
relative position of figures
and with properties of space.
Geometry is one of the oldest
sciences
Computer-aided design,
computer-aided geometric
design. Representing shapes
in computers, and using
these descriptions to create
images, to instruct people or
machines to build the shapes,
etc. (e.g. the hood of a car,
the overlay of parts in a
building construction, even
parts of computer animation).
28. Computer graphics is based
on geometry - how images
are transformed when
viewed in various ways.
Robotics. Robotic vision,
planning how to grasp a
shape with a robot arm, or
how to move a large shape
without collission.
29. STRUCTURAL ENGINEERING
Structural
engineering. What
shapes are rigid or
flexible, how they
respond to forces and
stresses. Statics
(resolution of forces)
is essentially
geometry. This goes
over into all levels of
design, form, and
function of many
things.
30. MATHS IN MEDICINE
Medical imaging - how to reconstruct
the shape of a tumor from CAT
scans, and other medical
measurements. Lots of new
geometry and other math was
(and still is being) developed for
this.
Protein modeling. Much of the
function of a protein is determined
by its shape and how the pieces
move. Mad Cow Disease is
caused by the introduction of a
'shape' into the brain (a shape
carried by a protein). Many drugs
are designed to change the shape
or motions of a protein -
something that we are just now
working to model, even
approximately, in computers,
using geometry and related areas
31. MATHS IN BIOLOGY
Physics, chemistry, biology,
Symmetry is a central concept
of many studies in science - and
also the central concept of
modern studies of geometry.
Students struggle in university
science if they are not able to
detect symmetries of an object
(molecule in stereo chemistry,
systems of laws in physics, ... ).
the study of transformations and
related symmetries has been,
since 1870s the defining
characteristic of geometric
studies
32. MATHS IN MUSIC
Music theorists often use mathematics to
understand musical structure and
communicate new ways of hearing music. This
has led to musical applications of set theory,
abstract algebra, and number theory. Music
scholars have also used mathematics to
understand musical scales, and some
composers have incorporated the Golden ratio
and Fibonacci numbers into their work.
33. INTONATION
If we take the ratios constituting a scale in just intonation, there
will be a largest prime number to be found among their prime
factorizations. This is called the prime limit of the scale. A scale
which uses only the primes 2, 3 and 5 is called a 5-limit scale; in
such a scale, all tones are regular number harmonics of a single
fundamental frequency. Below is a typical example of a 5-limit
justly tuned scale, one of the scales Johannes Kepler presents in
his Harmonice Mundi or Harmonics of the World of 1619, in
connection with planetary motion. The same scale was given in
transposed form by Alexander Malcolm in 1721 and theorist
Jose Wuerschmidt in the last century and is used in an inverted
form in the music of northern India. American composer Terry
Riley also made use of the inverted form of it in his "Harp of
New Albion". Despite this impressive pedigree, it is only one out
of large number of somewhat similar scales.
34. MATHS IN FORENSIC
MATHS IS APLLIED TO CLARIFY THE
BLURRED IMAGE TO CLEAR IMAGE.
THIS IS DONE BY USING
DIFFERENTIAL AND INTEGRAL
CALCULUS.
35. TO FIND RACE
In forensic department the race and sex of
humans can be found by using subpubic
angles between the bones of pelvis.