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Products related to Exponential:


  • Teaching, Tutoring and Training in the Lifelong Learning Sector
    Teaching, Tutoring and Training in the Lifelong Learning Sector

    This core text provides comprehensive support for pre-service and in-service trainee teachers in the Lifelong Learning Sector covering all they need to know to achieve QTLS status. Supporting trainees through all stages of their professional development, the text takes the reader through the theoretical background underpinning teaching and learning and offers practical guidance on day-to-day challenges. This fourth edition has been fully revised and updated and includes a new chapter on teaching practice with notes on observation and lesson planning.New information on behaviour management has been added to support trainees in an aspect of teaching that many find challenging.

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  • Celestion H1SC-9040 Exponential Horn Flare
    Celestion H1SC-9040 Exponential Horn Flare

    Efficient sound and dispersion. The Celestion H1SC-9040 is an exponential horn crafted from hard-wearing reinforced ABS. The H1SC-9040 allows the output level of your compression driver to remain balanced across its entire frequency range. With a screw-type (35mm / 1.38 diameter) driver mounting design this high-performance horn is compatible with a vast array of flange-fitted compression drivers. Thanks to the 25.1mm (1) throat exit high-frequencies remain efficient and clear. Installation is quick and simple - the horn just bolts into the speaker enclosure with your compression driver attached. If youre looking to replace a horn thats seen better days or improve the sonic ability of your loudspeaker the Celestion H1SC-9040 is the perfect choice.

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  • Celestion H1SC-8050 Exponential Horn Flare
    Celestion H1SC-8050 Exponential Horn Flare

    Efficient sound and dispersion. The Celestion H1SC-8050 is an exponential horn crafted from hard-wearing reinforced ABS. The H1SC-8050 allows the output level of your compression driver to remain balanced across its entire frequency range. With a screw-type (35mm / 1.38 diameter) driver mounting design this high-performance horn is compatible with a vast array of flange-fitted compression drivers. Thanks to the 25.4mm (1) throat exit high-frequencies remain efficient and clear. Installation is quick and simple - the horn just bolts into the speaker enclosure with your compression driver attached. If youre looking to replace a horn thats seen better days or improve the sonic ability of your loudspeaker the Celestion H1SC-8050 is the perfect choice.

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  • Celestion H1-9040P Exponential Horn Flare
    Celestion H1-9040P Exponential Horn Flare

    Efficient sound and dispersion. The Celestion H1-9040P is an exponential horn crafted from hard-wearing reinforced ABS. The H1-9040P allows the output level of your compression driver to remain balanced across its entire frequency range. With two M6 holes on a 76mm (3) PCD this high-performance horn is compatible with a vast array of flange-fitted compression drivers. Thanks to the 25.1mm (1) throat exit high-frequencies remain efficient and clear. Installation is quick and simple - the horn just bolts into the speaker enclosure with your compression driver attached. If youre looking to replace a horn thats seen better days or improve the sonic ability of your loudspeaker the Celestion H1-9040P is the perfect choice.

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  • 'Exponential vs. exponential'

    In mathematics, when we say "exponential vs. exponential," we are comparing two functions of the form f(x) = a^x and g(x) = b^x, where a and b are constants. When comparing these two exponential functions, we look at their growth rates and how quickly they increase as x gets larger. If a > b, then f(x) = a^x grows faster than g(x) = b^x, and if a < b, then g(x) grows faster. This comparison is important in various fields such as economics, biology, and physics to understand the rate of growth or decay of quantities over time.

  • What is exponential growth and exponential decay?

    Exponential growth is a process where a quantity increases at a constant rate over time, resulting in a rapid and accelerating growth pattern. On the other hand, exponential decay is a process where a quantity decreases at a constant rate over time, leading to a rapid and decelerating decline. Both exponential growth and decay can be described by exponential functions, which have the general form y = a * b^x, where 'a' is the initial quantity, 'b' is the growth or decay factor, and 'x' is the time variable.

  • When does exponential growth and exponential decay occur?

    Exponential growth occurs when a quantity increases at a constant percentage rate over a period of time. This can happen when there is continuous reinvestment of profits or interest earned on an investment. Exponential decay, on the other hand, occurs when a quantity decreases at a constant percentage rate over time. This can be seen in processes such as radioactive decay or the cooling of a hot object.

  • How can exponential functions and exponential growth be explained?

    Exponential functions are mathematical functions in which the variable appears in the exponent. Exponential growth occurs when a quantity increases at a constant percentage rate over a period of time. This growth is characterized by a rapid increase in the value of the function as the input variable increases. Exponential growth can be explained using the formula y = a * (1 + r)^x, where 'a' is the initial value, 'r' is the growth rate, 'x' is the time period, and 'y' is the final value.

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  • Exponential Families in Theory and Practice
    Exponential Families in Theory and Practice

    During the past half-century, exponential families have attained a position at the center of parametric statistical inference.Theoretical advances have been matched, and more than matched, in the world of applications, where logistic regression by itself has become the go-to methodology in medical statistics, computer-based prediction algorithms, and the social sciences.This book is based on a one-semester graduate course for first year Ph.D. and advanced master's students. After presenting the basic structure of univariate and multivariate exponential families, their application to generalized linear models including logistic and Poisson regression is described in detail, emphasizing geometrical ideas, computational practice, and the analogy with ordinary linear regression.Connections are made with a variety of current statistical methodologies: missing data, survival analysis and proportional hazards, false discovery rates, bootstrapping, and empirical Bayes analysis.The book connects exponential family theory with its applications in a way that doesn't require advanced mathematical preparation.

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  • A Journey into the World of Exponential Functions
    A Journey into the World of Exponential Functions

    The number e, the function ex, the logarithmic function in (x) and different hyperbolic functions like cosh (x), sinh (x) make frequent appearances in science and engineering textbooks.Students often fail to appreciate the significance of these mathematical symbols.This book clearly illustrates why such abstract mathematical entities are needed to represent some aspects of physical reality.It provides an overview of different types of numbers and functions along with their historical background and applications.It contains four chapters covering number system, exponential function, logarithmic functions and hyperbolic functions along with the concept of complex angle. Print edition not for sale in South Asia (India, Sri Lanka, Nepal, Bangladesh, Pakistan or Bhutan)

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  • Celestion H1-7050 NoBell Exponential Horn Flare
    Celestion H1-7050 NoBell Exponential Horn Flare

    Efficient sound and dispersion. The Celestion H1-7050 is an exponential horn crafted from cast-aluminium. The H1-7050 allows the output level of your compression driver to remain balanced across its entire frequency range. With two M6 holes on a 76mm (3) PCD this high-performance horn is compatible with a vast array of flange-fitted compression drivers. Thanks to the 25.1mm (1) throat exit high-frequencies remain efficient and clear. The H1-7050 also features embedded elastomer side panels that make the horn acoustically inert. Installation is quick and simple - the horn just bolts into the speaker enclosure with your compression driver attached. If youre looking to replace a horn thats seen better days or improve the sonic ability of your loudspeaker the Celestion H1-7050 is the perfect choice.

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  • Computer Science Education : Perspectives on Teaching and Learning in School
    Computer Science Education : Perspectives on Teaching and Learning in School

    Drawing together the most up-to-date research from experts all across the world, the second edition of Computer Science Education offers the most up-to-date coverage available on this developing subject, ideal for building confidence of new pre-service and in-service educators teaching a new discipline.It provides an international overview of key concepts, pedagogical approaches and assessment practices. Highlights of the second edition include:- New sections on machine learning and data-driven (epistemic) programming- A new focus on equity and inclusion in computer science education- Chapters updated throughout, including a revised chapter on relating ethical and societal aspects to knowledge-rich aspects of computer science education- A new set of chapters on the learning of programming, including design, pedagogy and misconceptions- A chapter on the way we use language in the computer science classroom. The book is structured to support the reader with chapter outlines, synopses and key points.Explanations of key concepts, real-life examples and reflective points keep the theory grounded in classroom practice. The book is accompanied by a companion website, including online summaries for each chapter, 3-minute video summaries by each author and an archived chapter on taxonomies and competencies from the first edition.

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  • How can one demonstrate exponential growth or exponential decay?

    Exponential growth can be demonstrated by a quantity increasing at a constant percentage rate over a period of time. For example, if an investment grows at a rate of 5% per year, the value will double in approximately 14 years. On the other hand, exponential decay can be demonstrated by a quantity decreasing at a constant percentage rate over time. For instance, if a radioactive substance decays at a rate of 10% per year, the amount remaining will halve in approximately 7 years. Both exponential growth and decay can be represented by mathematical functions, such as the exponential growth function y = ab^x and the exponential decay function y = ab^(-x).

  • How can exponential growth or exponential decay be demonstrated?

    Exponential growth can be demonstrated by a process where the quantity or value increases at a constant percentage rate over a period of time. For example, the population of a species can exhibit exponential growth if the birth rate consistently exceeds the death rate. On the other hand, exponential decay can be demonstrated by a process where the quantity or value decreases at a constant percentage rate over time. An example of exponential decay is the radioactive decay of a substance, where the amount of the substance decreases by a constant percentage over a given period.

  • How can one explain exponential functions and exponential growth?

    Exponential functions represent a mathematical relationship where the rate of change of a quantity is proportional to its current value. Exponential growth occurs when a quantity increases at a constant percentage rate over a period of time. This leads to rapid growth as the quantity gets larger, creating a curve that becomes steeper and steeper. Exponential growth is often seen in natural phenomena like population growth, compound interest, and the spread of diseases.

  • How can exponential decay be described using an exponential function?

    Exponential decay can be described using an exponential function by representing the decrease in quantity over time as a constant percentage rate of decrease. The general form of an exponential decay function is given by \(y = a \cdot e^{-kt}\), where \(a\) is the initial quantity, \(k\) is the decay constant, \(t\) is time, and \(e\) is the base of the natural logarithm. As time increases, the exponential function approaches zero, indicating the continuous decrease in quantity over time at a constant rate.

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