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Learning Theories
A learning theory is an effort to give description on how a person learns, as well as animals, to understand the complex learning process. Learning theories fall on three philosophical frameworks or main categories: cognitivism, behaviorism and constructivism.
3,416 Questions
In calculus, a limit is a value that a function or sequence approaches as the input values get closer and closer to a particular point or as the sequence progresses to infinity. It is used to define continuity, derivatives, and integrals, among other concepts in calculus. Calculus would not be possible without the concept of limits.
how long is the line segmentthere is no set single length. A line segment is simply part of a line.
Paper Presentation is all about how you put your topic or present your topic in front of the public. They see the way you present it. They way you put your points. Your way and the style of presenting the paper. The language you present the topic in.
Like if you have to present the paper on "Nanotechnology" Here first thing is that you have collect the information from the source you would like to. It can be the internet or some books on the topic.
You have to first arrange the information in the form as 1. define the topic 2. topic details 2. current affairs 3. advantages and the dis-adv. 4. cuases remedies 5. applications.
Then you have to prepare the "Abstract". Abstract- It is the details in short i.e not exceeding more than two pages. This you have to give to the place you want to present the topic. You have to write the Abstrct in the IEEE format if they ask you to do so. IEEE format is like you have to have the specific size of the text eg. for the heading the font is 14 for the sub heading the font is 12 and so on. You may check the detail from the PDF IEEE. (i am not sure about this source.)
Then you have to make the hard and the soft copy. One hard copy you have to submit to the place of the presentation. and one with you. Hard copy is the print pages of the detail of the topic(In this too you have to make the use of the IEEE format if specified. )
Soft copy it is the power presentation(PP). Do not write too much in the PP only the point. And explain them. If the introduction page in made them there is no need to give the introduction again Make the use of the body language and the facial expressions and also make a slide of the source you have collected all the information from
What are some cultural values of the Philippines?
Family is always first no matter what. Make family first when you finish college not career first.
Respect to elderly or older people than you.
Morality & dignity which is do the good no matter how hard your life is.
A lot of Patience to your spouse, children, parents.
Understanding to other people & be there 24/7.
Helping the less fortunate by donations. Good Samaritan.
Generosity even if you have nothing left, for the sake of the other.
Biological scientists study living organisms and their relationship to the environment. They perform research to gain a better understanding of fundamental life processes or apply that understanding to developing new products or processes. Most specialize in one area of biology, such as zoology (the study of animals) or microbiology (the study of microscopic organisms). (Medical scientists, whose work is closely related to that of biological scientists, are discussed elsewhere in the Handbook.)
Many biological scientists work in research and development. Some conduct basic research to advance our knowledge of living organisms, including bacteria and other infectious agents. Basic biological research enhances our understanding so that we can develop solutions to human health problems and improve the natural environment. These biological scientists mostly work in government, university, or private industry laboratories, often exploring new areas of research. Many expand on specialized research they started in graduate school.
Many research scientists must submit grant proposals to obtain funding for their projects. Colleges and universities, private industry, and Federal Government agencies such as the National Institutes of Health and the National Science Foundation contribute to the support of scientists whose research proposals are determined to be financially feasible and to have the potential to advance new ideas or processes.
Biological scientists who work in applied research or product development use knowledge gained by basic research to develop new drugs, treatments, and medical diagnostic tests; increase crop yields; and develop new biofuels. They usually have less freedom than basic researchers do to choose the emphasis of their research, and they spend more time working on marketable treatments to meet the business goals of their employers. Biological scientists doing applied research and product development in private industry may be required to describe their research plans or results to nonscientists who are in a position to veto or approve their ideas. These scientists must consider the business effects of their work. Scientists often work in teams, interacting with engineers, scientists of other disciplines, business managers, and technicians. Some biological scientists also work with customers or suppliers and manage budgets.
Scientists usually conduct research in laboratories using a wide variety of other equipment. Some conduct experiments involving animals or plants. This is particularly true of botanists, physiologists, and zoologists. Some biological research also takes place outside the laboratory. For example, a botanist might do field research in tropical rain forests to see which plants grow there, or an ecologist might study how a forest area recovers after a fire. Some marine biologists also work outdoors, often on research vessels from which they study fish, plankton, or other marine organisms.
Swift advances in knowledge of genetics and organic molecules spurred growth in the field of biotechnology, transforming the industries in which biological scientists work. Biological scientists can now manipulate the genetic material of animals and plants, attempting to make organisms more productive or resistant to disease. Basic and applied research on biotechnological processes, such as recombining DNA, has led to the production of important substances, including human insulin and growth hormone. Many other substances not previously available in large quantities are now produced by biotechnological means. Some of these substances are useful in treating diseases.
Today, many biological scientists are involved in biotechnology. Those working on various genome (chromosomes with their associated genes) projects isolate genes and determine their function. This work continues to lead to the discovery of genes associated with specific diseases and inherited health risks, such as sickle cell anemia. Advances in biotechnology have created research opportunities in almost all areas of biology, with commercial applications in areas such as medicine, agriculture, and environmental remediation.
Most biological scientists specialize in the study of a certain type of organism or in a specific activity, although recent advances have blurred some traditional classifications.
Aquatic biologists study micro-organisms, plants, and animals living in water. Marine biologists study salt water organisms, and limnologists study fresh water organisms. Much of the work of marine biology centers on molecular biology, the study of the biochemical processes that take place inside living cells. Marine biologists sometimes are mistakenly called oceanographers, but oceanography is the study of the physical characteristics of oceans and the ocean floor. (See the Handbook statements on environmental scientists and hydrologists and on geoscientists.)
Biochemists study the chemical composition of living things. They analyze the complex chemical combinations and reactions involved in metabolism, reproduction, and growth. Biochemists do most of their work in biotechnology, which involves understanding the complex chemistry of life.
Botanists study plants and their environments. Some study all aspects of plant life, including algae, fungi, lichens, mosses, ferns, conifers, and flowering plants; others specialize in areas such as identification and classification of plants, the structure and function of plant parts, the biochemistry of plant processes, the causes and cures of plant diseases, the interaction of plants with other organisms and the environment, and the geological record of plants.
Microbiologists investigate the growth and characteristics of microscopic organisms such as bacteria, algae, or fungi. Most microbiologists specialize in environmental, food, agricultural, or industrial microbiology; virology (the study of viruses); immunology (the study of mechanisms that fight infections); or bioinformatics (the use of computers to handle or characterize biological information, usually at the molecular level). Many microbiologists use biotechnology to advance knowledge of cell reproduction and human disease.
Physiologists study life functions of plants and animals, both in the whole organism and at the cellular or molecular level, under normal and abnormal conditions. Physiologists often specialize in functions such as growth, reproduction, photosynthesis, respiration, or movement, or in the physiology of a certain area or system of the organism.
Biophysicists study how physics, such as electrical and mechanical energy and related phenomena, relates to living cells and organisms. They perform research in fields such as neuroscience or bioinformatics.
Zoologists and wildlife biologists study animals and wildlife-their origin, behavior, diseases, and life processes. Some experiment with live animals in controlled or natural surroundings, while others dissect dead animals to study their structure. Zoologists and wildlife biologists also may collect and analyze biological data to determine the environmental effects of current and potential uses of land and water areas. Zoologists usually are identified by the animal group they study-ornithologists study birds, for example, mammalogists study mammals, herpetologists study reptiles, and ichthyologists study fish.
Ecologists investigate the relationships among organisms and between organisms and their environments, examining the effects of population size, pollutants, rainfall, temperature, and altitude. Using knowledge of various scientific disciplines, ecologists may collect, study, and report data on the quality of air, food, soil, and water.
(Agricultural and food scientists, sometimes referred to as biological scientists, are discussed elsewhere in the Handbook, as are medical scientists, whose work is closely related to that of biological scientists.)
Work environment. Biological scientists usually are not exposed to unsafe or unhealthy conditions. Those who work with dangerous organisms or toxic substances in the laboratory must follow strict safety procedures to avoid contamination. Many biological scientists, such as botanists, ecologists, and zoologists, do field studies that involve strenuous physical activity and primitive living conditions. Biological scientists in the field may work in warm or cold climates, in all kinds of weather.
Marine biologists encounter a variety of working conditions. Some work in laboratories; others work on research ships, and those who work underwater must practice safe diving while working around sharp coral reefs and hazardous marine life. Although some marine biologists obtain their specimens from the sea, many still spend a good deal of their time in laboratories and offices, conducting tests, running experiments, recording results, and compiling data.
Many biological scientists depend on grant money to support their research. They may be under pressure to meet deadlines and to conform to rigid grant-writing specifications when preparing proposals to seek new or extended funding.
Biological scientists typically work regular hours. While the 40-hour workweek is common, longer hours are not uncommon. Researchers may be required to work odd hours in laboratories or other locations (especially while in the field), depending on the nature of their research.
Source: U.S. Department of Labor
What is bcd to gray code converter?
BCD-BinaryCodedDecimal->Binary equivalent of each decimalexpressed using 4 bits->For single digit decimal BCD is same as its binary.In BCD only first 10 binary numbers are valid.The remaining 5 are invalid.
Gray code is an unweighed code.
ex:
G3=B3
G2=G3 XOR B2
G1=G2 XOR B1
G0=G1 XOR B0
Modern education philosophers?
Some modern education philosophers include Paulo Freire, who is known for his work on critical pedagogy and empowering marginalized communities; bell hooks, who explores intersections of race, class, and gender in education; and Gert Biesta, who emphasizes the importance of democratic education and the role of schools in promoting citizenship.
Write about relationship between HR strategies business strategies?
HR strategies should align with business strategies to ensure that the workforce is contributing effectively to achieving the organization's goals. HR should support the implementation of business strategies by recruiting, developing, and retaining the right talent, as well as by creating a positive work environment that promotes employee engagement and productivity. By integrating HR strategies with business strategies, organizations can enhance their overall performance and competitive advantage.
How do you explain the concept that learning is individual?
Each person will interpret a piece of information according to their level of understanding and their own way of interpreting things. When I studied the Dilpoma in Business papers some tutors encouraged us to put our own interpretation to questions in exams as long as we stuck to the original subject.There is a saying that no two people think exactly alike. This can be considered true and if it is then each person will learn in their own way and at their own pace.
Noting details is a reading comprehension skill that involves picking out, from a piece of text, the particular piece or pieces of information to achieve a given purpose such as answering a question in a test.
The quote "All truth is one; in this light, may science and religion endeavor for the steady evolution of all mankind" was written by Nikola Tesla. Tesla was a Serbian-American inventor, electrical engineer, mechanical engineer, and physicist. He was known for his work and contributions to the development of the modern alternating current (AC) electricity supply system.
Which concepts are easiest to apply in the short run?
Concepts that are easiest to apply in the short run are those that are simple, practical, and provide immediate results. This might include time management techniques like prioritizing tasks, setting boundaries, or delegating responsibilities. Additionally, strategies like setting specific, achievable goals or implementing small habit changes can also be effective in the short term.
What is the most unique investigatory project?
There is no such thing as ''The Most Unique IP'' cause as we all know Science is not just based on one study, it is everything around us! I tell you, the most unique IP that one can ever find isn't found on the net, it is found on the brain! If you just simply research on the net, yes, there are some cool IPs out there, but not as cool as the product of your mind! Believe in your own capacity and never give up! However, to supplement your question, I can give you some ideas and suggestions:
*think of something unique and interesting, in this way you can let your viewers, teachers, and classmates dig in your IP!
*don't just think on explaining phenomenons especially on the not so hard ones, cause for sure, theres already an answer for that given by scientists. Note: we conduct an IP to know what we don't know, not to know what we already know!
*always think of the near impossible ideas cause from this theres a better and more agreeable idea that comes out from your head.
*when you make an IP you must always consider the effects, or simply the benefits of the people around us can get. Always look for an implication!
*don't just stuck yourself up in one main study (e.g. physics, biology, lepidopterology), look around you and scrutinize even the simplest of things, and from there, theres a unique idea that would eventually come out!
*think on IPs that would solve common, social and ecological issues. always be open and always look for an answer, because there would never be formulation of problems, when there would be no conclusion for solutions!
good luck and always keep your feet on the ground!
-Donn Gerard L. Ouano
USJ-R 1-St.Joseph ; )
What was conditional ratification?
Conditional ratification refers to the act of approving a measure or agreement on the condition that certain requirements or provisions are met. In the context of historical events like the ratification of the U.S. Constitution, some states initially ratified the document with conditions or amendments that they felt were necessary before fully committing to it.
How does nursing theories affect clinical practice?
Nursing theories provide a framework for nursing practice, guiding decision-making and interventions. They help nurses understand patient behavior, make accurate assessments, and plan appropriate care. By incorporating nursing theories into clinical practice, nurses can provide more comprehensive, evidence-based, and patient-centered care.
82 ml (millilitres) is the same as 82 cc (cubic centimetres)
What is the history of accounting in nigeria?
the full history of account in Nigeria how it all started and various contributions from learned personels on accounting. the full history of account in Nigeria how it all started and various contributions from learned personels on accounting.
Networking refers to the process of building relationships and connections with people in your industry or field of interest. It involves creating opportunities for mutual support, knowledge sharing, and collaboration. Networking can help with career advancement, personal growth, and expanding one's professional circle.
The Carr's index is a measure of flowability of a powdered or granular material. It is calculated by taking the difference between the tapped and bulk densities of the material and dividing by the tapped density, and then multiplying by 100. A lower Carr's index value indicates better flowability of the material.
How do you cite someone citing someone else?
In general terms, the proper citation for a reference that is drawn from a citation found in another text or essay is as follows: First, provide the citation-information for the actual passage or quotation (etc.) that is referenced in one's own writing. Second, and alongside the first, provide the citation-information for the source of the reference along with a qualifier such as 'Found in' or 'Referenced by' or 'Originally from.'
How do you become an aneasthetist?
In A level you do bio,chem and physics or math.then you go to a medcial school for MD or MBBS. You do one year residency or house job.then you specialise for three years in anaesthelogy speciality. Final year of high school:
chemistry. human biology. one maths subject(any difficult maths that includes statistic) and obviously standard English (or whatever is the offical language of your country)
you would need to be a general practioner first (bachelor of Medicine, bachelor of Surgery), then you study a specialise course to become an anaesthetist.
You will need a bachelor degree in science (4 years of pre-med), then 4 years of medical school, then a few more years in the anesthesiology specialty.
Or you could get a bachelor degree in nursing (4 years), then a master's in nursing (another 3 years) then a certificate in nurse anesthesiology. But this way you will have to work under the direction of a doctor.
What is the best method for learning how to use a computer?
The best method for learning how to use a computer is simply to practice until you are comfortable with the applications you need to use regularly. You can practice under the supervision of an experienced user.
Factors in growth and development of the learner in school?
Factors affecting the growth and development of a learner include race, sex, cultural factors, lifestyle, socio-economic level and social factors. These factors may vary depending on personality and learner's environment.
12P5
= 12!/(12 - 5)!
= 12!/7!
= (12 x 11 x 10 x 9 x 8 x 7!)/7!
= 12 x 11 x 10 x 9 x 8
= 95,040 ways
or
The first student has 12 chances,
the second students has 11 chances,
the third student has 10 chances,
the fourth student has 9 chances, and
the fifth student has 8 chances.
Thus, there are 95,040 ways (12 x 11 x 10 x 9 x 8) to chose five students from 12 students.
