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| | A laxative may be a food substance or perhaps a chemical compound, which when consumed stimulates bowel activity. Laxatives are not dangerous substances, and are undoubtedly not harmful. In fact, laxatives are recommended by health practitioners to patients enduring irregularity plus bloating. In such situations, laxatives help stimulate bowel movement plus facilitate convenient passage of fecal matter from the body. Laxatives are equally selected once in a while to cleanse the colon, which in turn improves the overall health of a person. Then why are laxatives a big 'No' for fat reduction? This is because they do not lower or discard ingested calories. Confused! Well, let's have a look at how laxatives really work.<br><br>The Oatmeal Diet. If you wish To lose weight fast, consider following an oatmeal diet for 7 to 10 days. During this time period, oatmeal is your principal dish for all 3 meals. Oatmeal is nutritious and high in fiber. Eating oatmeal usually assist you feel fuller plus decrease a appetite causing you to lose weight. Eat a little fresh fruit or plain steamed vegetables as a side dish to aid keep the food balanced whilst following this diet.<br><br>Cardiovascular Exercises: Some of the cardiovascular exercises additionally help we lose more calories. Swimming, cycling, skipping, etc., are also known to help lose weight quicker. A daily 45 minute cardiovascular session could aid you stay fit and trim. If you are an obese individual, then you can go for an hr long session.<br><br>New moms should ensure that they are eating enough calories daily and the proper type of calories. It is recommended a nursing mother take in regarding five 100 extra calories a day over what her normal caloric consumption ought to be. The suggested amount of calories per day for the average fifteen to fifty year older woman is 2200 calories. So a nursing mother should aiming for regarding 2700 calories a day, unless there is a reason otherwise to heighten or decrease the amount of calorie due to health issues. If a breastfeeding mom refuses to take in the suggested caloric intake, she may jeopardize her milk supply, quality plus number.<br><br>If you are measuring a protein usage then for each pound of the bodyweight have regarding 0.5 grams of protein. This is [http://safedietplansforwomen.com/how-to-lose-weight-fast how to lose weight fast for women] the amount we want to assist the growth of your lean muscles.<br><br>Try doing certain weight training exercises like dumbbells; they are very efficient inside muscle toning. They usually assist inside reducing fat also as result in inch reduction.<br><br>Losing weight will be quite difficult, nevertheless with this you need to be capable to reach your weight objective. If you have any question, comments or concerns please feel free to comment. For an expert opinion please contact a local physician or dietician. |
| {{wiktionary}}
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| {{Redirect|Linear}}
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| {{Distinguish|Lineage (disambiguation)}}
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| In common usage, linearity refers to a function or relationship which can be graphically represented as a straight line, as in two quantities that are directly proportional to each other, such as [[voltage]] and [[Electric current|current]] in a simple DC [[Electrical circuit|circuit]], or the [[mass]] and [[weight]] of an object.
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| A crude but simple example of this concept can be observed in the volume control of an audio amplifier. While our ears may (roughly) perceive a relatively even gradation of volume as the knob goes from 0 to 10, the electrical power consumed in the speaker is rising geometrically with each unit increase in volume. The "loudness" is proportional to the volume number (a linear function), while the wattage is doubling with every unit increase (a non-linear function).
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| In [[mathematics]], a [[linear map]] or [[linear function]] ''f''(''x'') is a function which satisfies the following two properties: | |
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| * [[Additive function|Additivity]] : ''f''(''x'' + ''y'') = ''f''(''x'') + ''f''(''y'').
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| * [[homogeneous function|Homogeneity]] of degree 1: ''f''(α''x'') = α''f''(''x'') for all α.
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| The homogeneity and additivity properties together are called the superposition principle. It can be shown that additivity implies the homogeneity in all cases where α is [[Rational number|rational]]; this is done by proving the case where α is a natural number by [[mathematical induction]] and then extending the result to arbitrary rational numbers. If ''f'' is assumed to be continuous as well then this can be extended to show that homogeneity for α any real number, using the fact that rationals form a dense subset of the reals.
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| In this definition, ''x'' is not necessarily a [[real number]], but can in general be a member of any [[vector space]]. A [[linear function|more specific definition]] of linear function, not coinciding with the definition of linear map, is used in elementary mathematics.
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| The concept of linearity can be extended to linear [[Operator (mathematics)|operator]]s. Important examples of linear operators include the [[derivative]] considered as a [[differential operator]], and many constructed from it, such as [[del]] and the [[Laplacian]]. When a [[differential equation]] can be expressed in linear form, it is particularly easy to solve by breaking the equation up into smaller pieces, solving each of those pieces, and summing the solutions.
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| [[Linear algebra]] is the branch of mathematics concerned with the study of vectors, vector spaces (also called linear spaces), linear transformations (also called linear maps), and systems of linear equations.
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| The word '''linear''' comes from the [[Latin]] word ''linearis'', which means ''pertaining to or resembling a line''. For a description of linear and nonlinear equations, see ''[[linear equation]]''. [[Nonlinear]] equations and functions are of interest to [[physicist]]s and [[mathematician]]s because they can be used to represent many natural phenomena, including [[chaos theory|chaos]].
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| == Integral linearity ==
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| For a device that converts a quantity to another quantity there are three basic definitions for integral linearity in common use: independent linearity, zero-based linearity, and terminal, or end-point, linearity. In each case, linearity defines how well the device's actual performance across a specified operating range approximates a straight line. Linearity is usually measured in terms of a deviation, or non-linearity, from an ideal straight line and it is typically expressed in terms of percent of [[full scale]], or in ppm (parts per million) of full scale. Typically, the straight line is obtained by performing a least-squares fit of the data. The three definitions vary in the manner in which the straight line is positioned relative to the actual device's performance. Also, all three of these definitions ignore any gain, or offset errors that may be present in the actual device's performance characteristics.
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| Many times a device's specifications will simply refer to linearity, with no other explanation as to which type of linearity is intended. In cases where a specification is expressed simply as linearity, it is assumed to imply independent linearity.
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| Independent linearity is probably the most commonly used linearity definition and is often found in the specifications for [[Multimeter|DMM]]s and [[Analog-to-digital converter|ADC]]s, as well as devices like [[potentiometer]]s. Independent linearity is defined as the maximum deviation of actual performance relative to a straight line, located such that it minimizes the maximum deviation. In that case there are no constraints placed upon the positioning of the straight line and it may be wherever necessary to minimize the deviations between it and the device's actual performance characteristic.
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| Zero-based linearity forces the lower range value of the straight line to be equal to the actual lower range value of the device's characteristic, but it does allow the line to be rotated to minimize the maximum deviation. In this case, since the positioning of the straight line is constrained by the requirement that the lower range values of the line and the device's characteristic be coincident, the non-linearity based on this definition will generally be larger than for independent linearity.
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| For terminal linearity, there is no flexibility allowed in the placement of the straight line in order to minimize the deviations. The straight line must be located such that each of its end-points coincides with the device's actual upper and lower range values. This means that the non-linearity measured by this definition will typically be larger than that measured by the independent, or the zero-based linearity definitions. This definition of linearity is often associated with ADCs, [[Digital-to-analog converter|DAC]]s and various sensors.
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| A fourth linearity definition, absolute linearity, is sometimes also encountered. Absolute linearity is a variation of terminal linearity, in that it allows no flexibility in the placement of the straight line, however in this case the gain and offset errors of the actual device are included in the linearity measurement, making this the most difficult measure of a device's performance. For absolute linearity the end points of the straight line are defined by the ideal upper and lower range values for the device, rather than the actual values. The linearity error in this instance is the maximum deviation of the actual device's performance from ideal.
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| ==Linear polynomials==
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| {{main|linear equation}}
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| In a different usage to the above definition, a [[polynomial]] of degree 1 is said to be linear, because the [[graph of a function]] of that form is a [[Line (geometry)|line]].
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| Over the reals, a [[linear equation]] is one of the forms:
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| :<math>f(x) = m x + b\ </math>
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| where ''m'' is often called the [[slope]] or [[gradient]]; ''b'' the [[y-intercept]], which gives the point of intersection between the graph of the function and the ''y''-axis.
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| Note that this usage of the term ''linear'' is not the same as the above, because linear polynomials over the real numbers do not in general satisfy either additivity or homogeneity. In fact, they do so [[if and only if]] ''b'' = 0. Hence, if ''b'' ≠ 0, the function is often called an '''affine function''' (see in greater generality [[affine transformation]]).
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| ==Boolean functions==
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| In [[Boolean algebra (logic)|Boolean algebra]], a linear function is a function <math>f</math> for which there exist <math>a_0, a_1, \ldots, a_n \in \{0,1\}</math> such that
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| :<math>f(b_1, \ldots, b_n) = a_0 \oplus (a_1 \land b_1) \oplus \cdots \oplus (a_n \land b_n)</math> for all <math>b_1, \ldots, b_n \in \{0,1\}.</math>
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| A Boolean function is linear if one of the following holds for the function's [[truth table]]:
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| # In every row in which the truth value of the function is 'T', there are an odd number of 'T's assigned to the arguments and in every row in which the function is 'F' there is an even number of 'T's assigned to arguments. Specifically, f('F', 'F', ..., 'F') = 'F', and these functions correspond to [[linear map]]s over the Boolean vector space.
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| # In every row in which the value of the function is 'T', there is an even number of 'T's assigned to the arguments of the function; and in every row in which the [[truth value]] of the function is 'F', there are an odd number of 'T's assigned to arguments. In this case, f('F', 'F', ..., 'F') = 'T'.
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| Another way to express this is that each variable always makes a difference in the [[truth-value]] of the operation or it never makes a difference.
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| [[Negation]], [[Logical biconditional]], [[exclusive or]], [[tautology (logic)|tautology]], and [[contradiction]] are linear functions.
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| ==Physics==
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| In [[physics]], ''linearity'' is a property of the [[differential equations]] governing many systems; for instance, the [[Maxwell equations]] or the [[diffusion equation]].
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| Linearity of a [[differential equation]] means that if two functions ''f'' and ''g'' are solutions of the equation, then any [[linear combination]] ''af+bg'' is too.
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| ==Electronics==
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| In [[electronics]], the linear operating region of a device, for example a [[transistor]], is where a [[dependent variable]] (such as the transistor collector [[Electric current|current]]) is directly [[Proportionality (mathematics)|proportional]] to an [[independent variable]] (such as the base current). This ensures that an analog output is an accurate representation of an input, typically with higher amplitude (amplified). A typical example of linear equipment is a [[high fidelity]] [[audio amplifier]], which must amplify a signal without changing its waveform. Others are [[linear filter]]s, [[linear regulator]]s, and [[linear amplifier]]s in general.
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| In most [[Science|scientific]] and [[Technology|technological]], as distinct from mathematical, applications, something may be described as linear if the characteristic is approximately but not exactly a straight line; and linearity may be valid only within a certain operating region—for example, a high-fidelity amplifier may distort even a small signal, but sufficiently little to be acceptable (acceptable but imperfect linearity); and may distort very badly if the input exceeds a certain value, taking it away from the approximately linear part of the [[transfer function]].
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| ==Military tactical formations==
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| In [[formation (military)|military tactical formations]], "linear formations" were adapted from phalanx-like formations of [[pike (weapon)|pike]] protected by handgunners towards shallow formations of handgunners protected by progressively fewer pikes. This kind of formation would get thinner until its extreme in the age of Wellington with the '[[The Thin Red Line (1854 battle)|Thin Red Line]]'. It would eventually be replaced by skirmish order at the time of the invention of the breech-loading rifle that allowed soldiers to move and fire independently of the large-scale formations and fight in small, mobile units.
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| ==Art==
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| '''Linear''' is one of the five categories proposed by Swiss art historian [[Heinrich Wölfflin]] to distinguish "Classic", or [[Renaissance art]], from the [[Baroque]]. According to Wölfflin, painters of the fifteenth and early sixteenth centuries ([[Leonardo da Vinci]], [[Raphael]] or [[Albrecht Dürer]]) are more linear than "[[painterly]]" Baroque painters of the seventeenth century ([[Peter Paul Rubens]], [[Rembrandt]], and [[Diego Velázquez|Velázquez]]) because they primarily use outline to create [[shape]].<ref>Heinrich Wölfflin, ''Principles of Art History: the Problem of the Development of Style in Later Art'', M. D. Hottinger (trans.), Mineola, N.Y.: Dover (1950): pp. 18–72.</ref> Linearity in art can also be referenced in [[digital art]]. For example, [[hypertext fiction]] can be an example of [[nonlinear narrative]], but there are also websites designed to go in a specified, organized manner, following a linear path.
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| ==Music==
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| In music the '''linear''' aspect is succession, either [[interval (music)|interval]]s or [[melodic|melody]], as opposed to [[simultaneity (music)|simultaneity]] or the [[Interval (music)|vertical]] aspect.
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| ==Measurement==
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| In measurement, the term "linear foot" refers to the number of feet in a straight line of material (such as lumber or fabric) generally without regard to the width. It is sometimes incorrectly referred to as "lineal feet"; however, "lineal" is typically reserved for usage when referring to ancestry or heredity.[http://www.unc.edu/~rowlett/units/dictL.html] The words "linear"[http://www.yourdictionary.com/ahd/l/l0180100.html] & "lineal" [http://www.yourdictionary.com/ahd/l/l0180300.html]
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| both descend from the same root meaning, the [[Latin]] word for line, which is "linea".
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| {{expand section|date=March 2013}}
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| <!--linearity in statistics; error bands etc.-->
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| ==See also==
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| *[[Linear actuator]]
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| *[[Linear element]]
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| *[[Linear system]]
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| *[[Linear medium]]
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| *[[Linear programming]]
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| *[[Linear differential equation]]
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| *[[Bilinear (disambiguation)|Bilinear]]
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| *[[Multilinear]]
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| *[[Linear motor]]
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| *[[Linear A]] and [[Linear B]] scripts.
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| *[[Linear interpolation]]
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| ==References==
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| <references/>
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| [[Category:Elementary algebra]]
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| [[Category:Concepts in physics]]
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A laxative may be a food substance or perhaps a chemical compound, which when consumed stimulates bowel activity. Laxatives are not dangerous substances, and are undoubtedly not harmful. In fact, laxatives are recommended by health practitioners to patients enduring irregularity plus bloating. In such situations, laxatives help stimulate bowel movement plus facilitate convenient passage of fecal matter from the body. Laxatives are equally selected once in a while to cleanse the colon, which in turn improves the overall health of a person. Then why are laxatives a big 'No' for fat reduction? This is because they do not lower or discard ingested calories. Confused! Well, let's have a look at how laxatives really work.
The Oatmeal Diet. If you wish To lose weight fast, consider following an oatmeal diet for 7 to 10 days. During this time period, oatmeal is your principal dish for all 3 meals. Oatmeal is nutritious and high in fiber. Eating oatmeal usually assist you feel fuller plus decrease a appetite causing you to lose weight. Eat a little fresh fruit or plain steamed vegetables as a side dish to aid keep the food balanced whilst following this diet.
Cardiovascular Exercises: Some of the cardiovascular exercises additionally help we lose more calories. Swimming, cycling, skipping, etc., are also known to help lose weight quicker. A daily 45 minute cardiovascular session could aid you stay fit and trim. If you are an obese individual, then you can go for an hr long session.
New moms should ensure that they are eating enough calories daily and the proper type of calories. It is recommended a nursing mother take in regarding five 100 extra calories a day over what her normal caloric consumption ought to be. The suggested amount of calories per day for the average fifteen to fifty year older woman is 2200 calories. So a nursing mother should aiming for regarding 2700 calories a day, unless there is a reason otherwise to heighten or decrease the amount of calorie due to health issues. If a breastfeeding mom refuses to take in the suggested caloric intake, she may jeopardize her milk supply, quality plus number.
If you are measuring a protein usage then for each pound of the bodyweight have regarding 0.5 grams of protein. This is how to lose weight fast for women the amount we want to assist the growth of your lean muscles.
Try doing certain weight training exercises like dumbbells; they are very efficient inside muscle toning. They usually assist inside reducing fat also as result in inch reduction.
Losing weight will be quite difficult, nevertheless with this you need to be capable to reach your weight objective. If you have any question, comments or concerns please feel free to comment. For an expert opinion please contact a local physician or dietician.