Products related to Exponential:
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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.
Price: 19.99 € | Shipping*: 0.00 € -
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.
Price: 19.99 € | Shipping*: 0.00 € -
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.
Price: 19.99 € | Shipping*: 0.00 € -
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.
Price: 39.99 € | Shipping*: 0.00 €
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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.
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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.
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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.
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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 Inequalities : Equality Law in Times of Crisis
This thoughtfully edited volume explores the operation of equality and discrimination law in times of crisis.It aims to understand how existing inequalities are exacerbated in crises and whether equality law has the tools to understand and address this contingency.Experience during the COVID-19 crisis shows that the pandemic has acted as a catalyst for 'exponential inequalities' related to racism, xenophobia, sexism, homophobia, transphobia, ageism, and ableism.Yet, the field of equality law (which is meant to be addressing such discrimination or inequality) has had little immediate relevance in mitigating these exponential inequalities.This is despite the fact that countries like the UK have a rather recent and state-of-the-art legislation in the field, namely the Equality Act 2010.Exponential Inequalities offers readers an understanding of how these inequalities came to be and how crises such as the global pandemic, the climate emergency, or the economic downturn, can exacerbate an already untenable situation.It illuminates both the structural and the conceptual, as well as the practical and doctrinal difficulties currently experienced in equality law, and discusses whether or not equality law even has the tools to both understand and then address this contingency.Written by a team of internationally recognized experts, Exponential Inequalities provides a comparative perspective on the functioning of equality laws across a range of contexts and jurisdictions and represents an essential read for scholars and policy makers alike.
Price: 125.00 £ | Shipping*: 0.00 £ -
Doepfer A-132-3 Dual Linear/Exponential VCA (8HP)
The Doepfer A-132-3 Dual Linear/Exponential VCA module is a simplistic unit featuring two identical VCAs each with their own CV input and manual gain control. Each VCA can be switched between linear or exponential control scale characters whilst all of the inputs/outs are DC coupled. The A-132-3 can be used with both control voltages and audio signals. The input of each VCA does not feature an attenuator but is able to process up to 16Vs signals without distortion. This simple module provides you with exceptional VCA capabilities in a compact and versatile format with an intuitive user interface.
Price: 109.99 € | Shipping*: 0.00 € -
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Margaret Bonds
Composer, pianist, teacher, and social-justice activist Margaret Bonds fought against racism, sexism, and economic injustice throughout her career, amassing a portfolio of social-justice compositions unrivalled in eloquence and originality which challenged longstanding barriers between Black and White, male and female, popular and classical.During her lifetime the political economy of music publishing consigned most of her music to manuscript dissemination, and since her death -- despite the enduring popularity of works such as He's Got the Whole World in His Hand and The Ballad of the Brown King -- her success in transcending the barriers she faced as an African American and a woman has been obscured by the forces of racism and sexism in concert life, which, together with White- and male-dominated music historiography, have viewed her life and work through the lens of specious, racist, and sexist tropes.This book draws on an unprecedented mass of archival evidence to set aside those tropes and offer a fresh portrait of Margaret Bonds.Examining her published and unpublished music, it shows how the child prodigy rose to become the first African American woman whose music was performed widely in Africa; one of the first African American women whose music was broadcast on European radio; the first African American woman and pianist to perform with a major U.S. orchestra; the second African American woman in classical music to attain full membership in ASCAP; the first woman Black or White to win not one or two, but three, awards from that predominantly White and male organization; the lasting musical voice of Langston Hughes; and the teacher of other notables including Ned Rorem and Cheryl Wall.It thus shows how the confluence of natural genius, matrilineal and racial pride, faith, and support from the community of African American artists, intellectuals, and institutions enabled Margaret Bonds to become one of the most extraordinary figures in all of twentieth-century music.In response to the increasing globalization of music, the Composers across Cultures series, formerly the Master Musicians series, seeks to explore the inexhaustible diversity of music, and its common links to our shared humanity.
Price: 25.99 £ | Shipping*: 3.99 £
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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).
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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.
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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.
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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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