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Multilingual Demographic Dictionary, second unified edition, English volume

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Multilingual Demographic Dictionary, second unified edition, English vol.
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=== 430 ===
 
=== 430 ===
  
Mortality statistics are generally compiled from death registration (cf. {{NonRefTerm|211}}). When a death takes place a {{TextTerm|death certificate|1|430|OtherIndexEntry=certificate, death}} is generally issued; statistics are compiled from the information given on death certificates. In some countries a distinction is made between the {{TextTerm|medical certificate of death|2|430|OtherIndexEntry=certificate of death, medical}} issued by a medical practitioner who has attended the deceased person during his or her last illness, and an ordinary death certificate issued by the registrar of deaths for legal purposes.
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Mortality statistics are generally compiled from death registration (cf. {{NonRefTerm|211}}). When a death takes place a {{TextTerm|death certificate|1|430|OtherIndexEntry=certificate, death ...}} is generally issued; statistics are compiled from the information given on death certificates. In some countries a distinction is made between the {{TextTerm|medical certificate of death|2|430|OtherIndexEntry=certificate of death, medical ...|OtherIndexEntry2=death, medical certificate of ...}} issued by a medical practitioner who has attended the deceased person at the time of his/her death, and an ordinary death certificate issued by the registrar of deaths for legal purposes.
{{Note|1| The first death statistics in England and Wales were compiled from {{NoteTerm|bills of mortality}} which were generally drawn up on the basis of {{NoteTerm|burial registers}}. In countries where vital registration is deficient, statistics can be gathered by the survey technique; questions may be asked on deaths during a reference period, generally the previous year; the {{NoteTerm|indirect estimation of mortality}} relies on such question as the {{NoteTerm|number of children surviving}} among {{NonRefTerm|children ever born}} ({{RefNumber|63|7|2}}), {{NoteTerm|orphanhood status}} or {{NoteTerm|widowhood status}}.}}
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{{Note|1| The first death statistics in England and Wales were compiled from {{NoteTerm|bills of mortality|IndexEntry=bill of mortality|OtherIndexEntry=mortality, bill of ...}} which were generally drawn up on the basis of {{NoteTerm|burial registers|IndexEntry=burial register|OtherIndexEntry=register, burial ...}}. In countries where vital registration is deficient, statistics can be gathered by the survey technique; questions may be asked on deaths during a reference period, generally the previous year; the {{NoteTerm|indirect estimation of mortality|OtherIndexEntry=estimation of mortality, indirect ...|OtherIndexEntry2=mortality, indirect estimation of ...}} relies on such questions as the {{NoteTerm|number of children surviving|OtherIndexEntry=survive, number of children surviving|OtherIndexEntry2=child, number of children surviving}} among {{NonRefTerm|children ever born}} ({{RefNumber|63|7|2}}), {{NonRefTerm|reporting of sibling deaths}}, {{NoteTerm|orphanhood status|OtherIndexEntry=status, orphanhood ...}} or {{NoteTerm|widowhood status|OtherIndexEntry=satus, widowhood ...}}.}}
  
 
=== 431 ===
 
=== 431 ===
  
{{TextTerm|Probabilities of dying|1|431|IndexEntry=probability of dying|OtherIndexEntry=dying, probability of}} or {{TextTerm|death probabilities|1|431|2|IndexEntry=probability of death}} are used to study in detail the mortality of a period or of a cohort. They are the probabilities that an individual of exact age {{NonRefTerm|x}} will die before exact age {{NonRefTerm|x + n}}, and are represented by the symbol <sub>n</sub>q<sub>x</sub>. If {{NonRefTerm|n}} = 1, we talk about {{TextTerm|annual death probabilities|2|431|IndexEntry=annual death probability|OtherIndexEntry=death probability, annual}}; if {{NonRefTerm|n}} = 5, about {{TextTerm|quinquennial death probabilities|3|431|IndexEntry=quinquennial death probability|OtherIndexEntry=death probability, quinquennial}}. The {{TextTerm|instantaneous death rate|4|431|OtherIndexEntry=death rate, instantaneous}}, or as it is occasionally called the {{TextTerm|force of mortality|4|431|2|OtherIndexEntry=mortality, force of}}, is the limit of the <sub>n</sub>q<sub>x</sub> value as {{NonRefTerm|n}} tends to zero. The complement to one of the probability of dying from exact age {{NonRefTerm|x}} to exact age {{NonRefTerm|x + n}} is the {{TextTerm|probability of survival|6|431|OtherIndexEntry=survival, probability of}} over this interval. In the preparation of population projections, we use {{TextTerm|survival ratios|7|431|IndexEntry=survival ratio|OtherIndexEntry=ratio, survival}}; they represent the probability that individuals of the same birth cohort or group of cohorts will still be alive n years later.
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{{TextTerm|Probabilities of dying|1|431|IndexEntry=probability of dying|OtherIndexEntry=die, probability of dying}} or {{TextTerm|death probabilities|1|431|2|IndexEntry=probability of death|OtherIndexEntry=death probability}} are used to study in detail the mortality of a period or of a cohort. They are the probabilities that an individual of exact age {{NonRefTerm|x}} will die before exact age <i>x + n</i>, and are represented by the symbol <sub>n</sub>q<sub>x</sub>. If <i>n</i> = 1, we talk about {{TextTerm|annual death probabilities|2|431|IndexEntry=annual death probability|OtherIndexEntry=death probability, annual ...|OtherIndexEntry2=probability, annual death ...}}; if <i>n</i> = 5, about {{TextTerm|quinquennial death probabilities|3|431|IndexEntry=quinquennial death probability|OtherIndexEntry=death probability, quinquennial ...|OtherIndexEntry2=probability, quiquennial death ...}}. The {{TextTerm|instantaneous death rate|4|431|OtherIndexEntry=death rate, instantaneous|OtherIndexEntry2=rate, instantaneous death ...}}, or as it is occasionally called the {{TextTerm|force of mortality|4|431|2|OtherIndexEntry=mortality, force of ...}}, is the limit of the <sub>n</sub>q<sub>x</sub> value as {{NonRefTerm|n}} tends to zero. The {{NewTextTerm|projective mortality probability|5|431|OtherIndexEntry=mortality probability, projective ...|OtherIndexEntryTwo=probability, projective mortality}} is the probability that individuals of the same cohort or group of cohorts died between two January 1<sup>st</sup>. The name of this probability comes from its use in the calculation of population projections. It is also equal to 1-L<sub>x+n</sub>/L<sub>x</sub>, where L<sub>x</sub> is the person-years lived by the stationary population from exact age x to exact age x+n. The complement to one of the probability of dying from exact age <i>x</i> to exact age <i>x + n</i> is the {{TextTerm|probability of survival|6|431|OtherIndexEntry=survival, probability of ...}} over this interval. In the preparation of population projections, we use {{TextTerm|survival ratios|7|431|IndexEntry=survival ratio|OtherIndexEntry=ratio, survival ...}}; they represent the probability that individuals of the same birth cohort or group of cohorts will still be alive n years later.
{{Note|1| The probability of death between age {{NonRefTerm|x}} and {{NonRefTerm|x + n}} is defined as the ratio of deaths between ages {{NonRefTerm|x}} and {{NonRefTerm|x + n}} to the number of survivors at exact age {{NonRefTerm|x}}. It is not to be confused with the {{NoteTerm|central death rate}}, the ratio of deaths between ages {{NonRefTerm|x}} and {{NonRefTerm|x + n}} to the mean population alive at that age. The central death rate is written <sub>n</sub>m<sub>x</sub> .}}
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{{Note|1| The probability of death between age <i>x</i> and <i>x + n</i> is defined as the ratio of deaths between ages <i>x</i> and <i>x+n</i> to the number of survivors at exact age <i>x</i>. It is not to be confused with the {{NoteTerm|central death rate|OtherIndexEntry=death rate, central ...|OtherIndexEntry2=rate, central death ...}}, the ratio of deaths between ages <i>x</i> and <i>x+n</i> to the mean population alive at that age. The central death rate is written <sub>n</sub>m<sub>x</sub> .}}
{{Note|6| The probability of survival from age {{NonRefTerm|x}} to age {{NonRefTerm|x + n}} is written <sub>n</sub>p<sub>x</sub> .}}
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{{Note|6| The probability of survival from age <i>x</i> to age <i>x+n</i> is written <sub>n</sub>p<sub>x</sub> .}}
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{{Note|7| A {{NoteTerm|survival ratio}} is the complement to one of the projective mortality probability. Individuals in the cohorts do not have the same age and therefore are not at the same risk of dying.}}
  
 
=== 432 ===
 
=== 432 ===
  
The course of mortality throughout the life cycle may be described by a {{TextTerm|life table|1|432|OtherIndexEntry=table, life}}. A life table consists of several {{TextTerm|life table functions|2|432|IndexEntry=life table function|OtherIndexEntry=function, life table}}, all of which are mathematically related and may be generally derived when the value of one of them is known. The {{TextTerm|survivorship function|3|432|OtherIndexEntry=function, survivorship}} shows the number of {{TextTerm|survivors|4|432|IndexEntry=survivor}} of a {{NonRefTerm|cohort}} ({{RefNumber|11|6|2}}) of births to various {{NonRefTerm|exact ages}} ({{RefNumber|32|2|7}}) on the assumption that the cohort is subjected to the rates of mortality shown. The number of births in the original cohort is known as the {{TextTerm|radix|5|432}} of the life table and the process by which the original cohort is reduced is known as {{TextTerm|attrition|6|432}}.
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The course of mortality throughout the life cycle may be described by a {{TextTerm|life table|1|432|OtherIndexEntry=table, life ...}}. A life table consists of several {{TextTerm|life table functions|2|432|IndexEntry=life table function|OtherIndexEntry=function, life table ...|OtherIndexEntry2=table, life ... function}}, all of which are mathematically related and may be generally derived when the value of one of them is known. The {{TextTerm|survivorship function|3|432|OtherIndexEntry=function, survivorship ...}} shows the number of {{TextTerm|survivors|4|432|IndexEntry=survivor}} of a {{NonRefTerm|cohort}} ({{RefNumber|11|6|2}}) of births to various {{NonRefTerm|exact ages}} ({{RefNumber|32|2|7}}) on the assumption that the cohort is subjected to the rates of mortality shown. The number of births in the original cohort is known as the {{TextTerm|radix|5|432}} of the life table and the process by which the original cohort is reduced is known as {{TextTerm|attrition|6|432}}.
 
{{Note|4| The number of survivors to exact age x is denoted by l<sub>x</sub> .}}
 
{{Note|4| The number of survivors to exact age x is denoted by l<sub>x</sub> .}}
 
{{Note|5| The radix is usually a power of 10: 10,000 or 100,000 for example.}}
 
{{Note|5| The radix is usually a power of 10: 10,000 or 100,000 for example.}}
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=== 433 ===
 
=== 433 ===
  
The differences between the number of {{NonRefTerm|survivors}} ({{RefNumber|43|2|4}}) at different ages gives the number of deaths within the given age interval of the {{TextTerm|death function|1|433|OtherIndexEntry=function, death}}. Life tables typically include the {{TextTerm|expectation of life|3|433|OtherIndexEntry=life, expectation of}} or {{TextTerm|life expectancy|3|433|2|OtherIndexEntry=expectancy, life}} at age x ; this is the mean number of years to be lived by those surviving to exact age x, given the mortality conditions of the table. The {{TextTerm|expectation of life at birth|4|433|OtherIndexEntry=birth, expectation of life at}} is a particular case of expectation of life, and represents the {{TextTerm|mean length of life|4|433|2|OtherIndexEntry=life, mean length}} of individuals who have been subjected since birth to the mortality of the table. The reciprocal of the expectation of life at birth is the {{TextTerm|life table death rate|5|433|OtherIndexEntry=death rate, life table}} or {{TextTerm|death rate of the stationary population|5|433|2|OtherIndexEntry=stationary population, death rate}}.
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To the survivors function corresponds a {{TextTerm|death function|1|433|OtherIndexEntry=function, death ...}} which is calculated as the differences between the number of {{NonRefTerm|survivors}} ({{RefNumber|43|2|4}}) at different ages. It is named the {{NewTextTerm|distribution of life table deaths|2|433|OtherIndexEntry=life table, distribution of ... deaths|OtherIndexEntryTwo=death, distribution of life table deaths|OtherIndexEntry3=tabe, distribution of life ... deaths}} in order to be distinguished from the crude distribution of deaths. Life tables typically include the {{TextTerm|expectation of life|3|433|OtherIndexEntry=life, expectation of ...}} or {{TextTerm|life expectancy|3|433|2|OtherIndexEntry=expectancy, life ...}} at age x ; this is the mean number of years to be lived by those surviving to exact age x, given the mortality conditions of the table. The {{TextTerm|expectation of life at birth|4|433|OtherIndexEntry=birth, expectation of life at ...|OtherIndexEntry2=life, expectation of ... at birth}} is a particular case of expectation of life, and represents the {{TextTerm|mean length of life|4|433|2|OtherIndexEntry=life, mean length of ...|OtherIndexEntry2=length of life, mean ...}} of individuals who have been subjected since birth to the mortality of the table. The reciprocal of the expectation of life at birth is the {{TextTerm|life table death rate|5|433|OtherIndexEntry=death rate, life table|OtherIndexEntry2=rate, life table death ...|OtherIndexEntry2=table, life ... death rate}} or {{TextTerm|death rate of the stationary population|5|433|2|OtherIndexEntry=stationary population, death rate of the ...|OtherIndexEntry2=rate, death ... of the stationary population|OtherIndexEntry3=population, death rate of the stationary ...}}.
{{Note|3| By integrating the {{NonRefTerm|survivorship function}} ({{RefNumber|43|2|3}}) between two exact given ages we obtain the {{NoteTerm|total number of years lived}} by the cohort between these ages; the notation for the total number of years lived between age {{NonRefTerm|x}} and {{NonRefTerm|x + n}} is {{NonRefTerm|<sub>n</sub>L<sub>x</sub>}} . This function is often called the {{NoteTerm|stationary population}} in life table column headings. By summing it from a given age x to the end of life, we obtain the total number of years to be lived after attaining age x by those reaching that age; the conventional notation is T <sub>x</sub> .}}
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{{Note|3| By integrating the {{NonRefTerm|survivorship function}} ({{RefNumber|43|2|3}}) between two exact given ages we obtain the {{NoteTerm|total number of years lived|OtherIndexEntry=number of years lived, total ...|OtherIndexEntry2=year lived, total number of years lived|OtherIndexEntry3=life, total number of years lived}} by the cohort between these ages; the notation for the total number of years lived between age {{NonRefTerm|x}} and {{NonRefTerm|x + n}} is {{NonRefTerm|<sub>n</sub>L<sub>x</sub>}} . This function is often called the {{NoteTerm|stationary population}} in life table column headings. By summing it from a given age x to the end of life, we obtain the total number of years to be lived after attaining age x by those reaching that age; the conventional notation is T <sub>x</sub> .}}
 
{{Note|4| The notation for the expectation of life at age x is e<sub>x</sub>}}
 
{{Note|4| The notation for the expectation of life at age x is e<sub>x</sub>}}
  
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=== 435 ===
 
=== 435 ===
  
A {{TextTerm|complete life table|1|435|OtherIndexEntry=life table, complete}} is usually one in which the values of the {{NonRefTerm|life table functions}} ({{RefNumber|43|2|2}}) are given in single years of age. An {{TextTerm|abridged life table|2|435|OtherIndexEntry=life table, abridged}} is one in which most functions are given only for certain pivotal ages, frequently spaced at five or ten year intervals after infancy; intermediate values for the functions are usually obtained by some form of interpolation ({{RefNumber|15|1|7}}). The term {{TextTerm|life table for selected heads|3|435|OtherIndexEntry=selected heads, life table for}} is used to refer to a life table relating to the experience of a number of specially selected individuals, such as the clients of a life insurance company, in opposition to {{TextTerm|general life tables|4|435|IndexEntry=general life table|OtherIndexEntry=life table, general}} which relate the experience of a whole {{NonRefTerm|population}} ({{RefNumber|10|1|4}}). Life tables are generally presented on a sex-specific basis although on occasion they are presented for both sexes. A life table which is based only upon the generalization of empirical relationships is called a {{TextTerm|model life table|5|435|OtherIndexEntry=life table, model}}.
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A {{TextTerm|complete life table|1|435|OtherIndexEntry=life table, complete ...|OtherIndexEntry2=table, complete life ...}} is usually one in which the values of the {{NonRefTerm|life table functions}} ({{RefNumber|43|2|2}}) are given in single years of age. An {{TextTerm|abridged life table|2|435|OtherIndexEntry=life table, abridged ...|OtherIndexEntry2=table, abridged life ...}} is one in which most functions are given only for certain pivotal ages, frequently spaced at five or ten year intervals after infancy; intermediate values for the functions are usually obtained by some form of interpolation ({{RefNumber|15|1|7}}). The term {{TextTerm|life table for selected heads|3|435|OtherIndexEntry=head, life table for selected heads|OtherIndexEntry2=table, life ... for selected heads}} is used to refer to a life table relating to the experience of a number of specially selected individuals, such as the clients of a life insurance company, in opposition to {{TextTerm|general life tables|4|435|IndexEntry=general life table|OtherIndexEntry=life table, general ...|OtherIndexEntry2=table, general life ...}} which relate the experience of a whole {{NonRefTerm|population}} ({{RefNumber|10|1|4}}). Life tables are generally presented on a sex-specific basis although on occasion they are presented for both sexes. A life table which is based only upon the generalization of empirical relationships is called a {{TextTerm|model life table|5|435|OtherIndexEntry=life table, model ...|OtherIndexEntry2=table, model life ...}}.
  
 
=== 436 ===
 
=== 436 ===
  
A {{TextTerm|calendar year life table|1|436|IndexEntry=calendar-year life table|OtherIndexEntry=life table, calendar year}} or {{TextTerm|period life table|1|436|2}} (cf. {{RefNumber|15|3|2}}; {{RefNumber|43|2|1}}) is one in which the mortality rates used relate to a specified time interval and the {{NonRefTerm|cohort}} ({{RefNumber|11|6|2}}) is therefore hypothetical. A {{TextTerm|generation life table|2|436|OtherIndexEntry=life table, period}}, or {{TextTerm|cohort life table|2|436|2|OtherIndexEntry=table, life cohort}} on the other hand, traces the experience of an actual birth cohort and the mortality rates contained in the table are then spread over a prolonged period, usually about 100 years. A {{TextTerm|mortality surface|3|436|OtherIndexEntry=surface, mortality}} is drawn when {{NonRefTerm|probabilities of dying}} ({{RefNumber|43|1|1}}) are plotted against age and time period simultaneously in a three-dimensional diagram.
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A {{TextTerm|calendar-year life table|1|436|IndexEntry=calendar-year life table|OtherIndexEntry=life table, calendar-year ...|OtherIndexEntry2=table, calendar-year life ...|OtherIndexEntry3=year, calendar-... life table}} or {{TextTerm|period life table|1|436|2|OtherIndexEntry=life table, period ...|OtherIndexEntry2=table, period life ...}} (cf. {{RefNumber|15|3|2}}; {{RefNumber|43|2|1}}) is one in which the mortality rates used relate to a specified time interval and the {{NonRefTerm|cohort}} ({{RefNumber|11|6|2}}) is therefore hypothetical. A {{TextTerm|generation life table|2|436|OtherIndexEntry=life table, period}}, or {{TextTerm|cohort life table|2|436|2|OtherIndexEntry=table, cohort life ...|OtherIndexEntry2=life table, cohort ...}} on the other hand, traces the experience of an actual birth cohort and the mortality rates contained in the table are then spread over a prolonged period, usually about 100 years. A {{TextTerm|mortality surface|3|436|OtherIndexEntry=surface, mortality ...}} is drawn when {{NonRefTerm|probabilities of dying}} ({{RefNumber|43|1|1}}) are plotted against age and time period simultaneously in a three-dimensional diagram.
  
 
=== 437 ===
 
=== 437 ===
  
The {{TextTerm|Lexis diagram|1|437|OtherIndexEntry=diagram, Lexis}} is commonly used to illustrate the usual method for computing death probabilities and other demographic measures. In this diagram, every individual is represented by a {{TextTerm|life line|2|437|OtherIndexEntry=line, life}} which begins at birth and ends in the {{TextTerm|point of death|3|437|OtherIndexEntry=death, point of}}. A method for the study of mortality at very advanced ages has been called the {{TextTerm|method of extinct generations|4|437|OtherIndexEntry=extinct generations, method of}}, because it uses observed deaths for cohorts which have been completely eliminated by mortality.
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The {{TextTerm|Lexis diagram|1|437|OtherIndexEntry=diagram, Lexis ...}} is commonly used to illustrate the usual method for computing death probabilities and other demographic measures. In this diagram, every individual is represented by a {{TextTerm|life line|2|437|OtherIndexEntry=line, life ...}} which begins at birth and ends in the {{TextTerm|point of death|3|437|OtherIndexEntry=death, point of ...}}. A method for the study of mortality at very advanced ages has been called the {{TextTerm|method of extinct generations|4|437|OtherIndexEntry=extinct generation, method of extinct generations|OtherIndexEntry2=generation, method of extinct generations}}, because it uses observed deaths for cohorts which have been completely eliminated by mortality.
  
  

Latest revision as of 15:47, 21 July 2018


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The harmonization of all the second editions of the Multilingual Demographic Dictionary is an ongoing process. Please consult the discussion area of this page for further comments.


Go to: Introduction to Demopædia | Instructions on use | Downloads
Chapters: Preface | 1. General concepts | 2. The treatment and processing of population statistics | 3. Distribution and classification of the population | 4. Mortality and morbidity | 5. Nuptiality | 6. Fertility | 7. Population growth and replacement | 8. Spatial mobility | 9. Economic and social aspects of demography
Pages: 10 | 11 | 12 | 13 | 14 | 15 | 16 | 20 | 21 | 22 | 23 | 30 | 31 | 32 | 33 | 34 | 35 | 40 | 41 | 42 | 43 | 50 | 51 | 52 | 60 | 61 | 62 | 63 | 70 | 71 | 72 | 73 | 80 | 81 | 90 | 91 | 92 | 93
Index: Global Index | Index of chapter 1 | Index of chapter 2 | Index of chapter 3 | Index of chapter 4 | Index of chapter 5 | Index of chapter 6 | Index of chapter 7 | Index of chapter 8 | Index of chapter 9


430

Mortality statistics are generally compiled from death registration (cf. 211). When a death takes place a death certificate 1 is generally issued; statistics are compiled from the information given on death certificates. In some countries a distinction is made between the medical certificate of death 2 issued by a medical practitioner who has attended the deceased person at the time of his/her death, and an ordinary death certificate issued by the registrar of deaths for legal purposes.

  • 1. The first death statistics in England and Wales were compiled from bills of mortality which were generally drawn up on the basis of burial registers. In countries where vital registration is deficient, statistics can be gathered by the survey technique; questions may be asked on deaths during a reference period, generally the previous year; the indirect estimation of mortality relies on such questions as the number of children surviving among children ever born (637-2), reporting of sibling deaths, orphanhood status or widowhood status.

431

Probabilities of dying 1 or death probabilities 1 are used to study in detail the mortality of a period or of a cohort. They are the probabilities that an individual of exact age x will die before exact age x + n, and are represented by the symbol nqx. If n = 1, we talk about annual death probabilities 2; if n = 5, about quinquennial death probabilities 3. The instantaneous death rate 4, or as it is occasionally called the force of mortality 4, is the limit of the nqx value as n tends to zero. The projective mortality probability 5★ is the probability that individuals of the same cohort or group of cohorts died between two January 1st. The name of this probability comes from its use in the calculation of population projections. It is also equal to 1-Lx+n/Lx, where Lx is the person-years lived by the stationary population from exact age x to exact age x+n. The complement to one of the probability of dying from exact age x to exact age x + n is the probability of survival 6 over this interval. In the preparation of population projections, we use survival ratios 7; they represent the probability that individuals of the same birth cohort or group of cohorts will still be alive n years later.

  • 1. The probability of death between age x and x + n is defined as the ratio of deaths between ages x and x+n to the number of survivors at exact age x. It is not to be confused with the central death rate, the ratio of deaths between ages x and x+n to the mean population alive at that age. The central death rate is written nmx .
  • 6. The probability of survival from age x to age x+n is written npx .
  • 7. A survival ratio is the complement to one of the projective mortality probability. Individuals in the cohorts do not have the same age and therefore are not at the same risk of dying.

432

The course of mortality throughout the life cycle may be described by a life table 1. A life table consists of several life table functions 2, all of which are mathematically related and may be generally derived when the value of one of them is known. The survivorship function 3 shows the number of survivors 4 of a cohort (116-2) of births to various exact ages (322-7) on the assumption that the cohort is subjected to the rates of mortality shown. The number of births in the original cohort is known as the radix 5 of the life table and the process by which the original cohort is reduced is known as attrition 6.

  • 4. The number of survivors to exact age x is denoted by lx .
  • 5. The radix is usually a power of 10: 10,000 or 100,000 for example.

433

To the survivors function corresponds a death function 1 which is calculated as the differences between the number of survivors (432-4) at different ages. It is named the distribution of life table deaths 2★ in order to be distinguished from the crude distribution of deaths. Life tables typically include the expectation of life 3 or life expectancy 3 at age x ; this is the mean number of years to be lived by those surviving to exact age x, given the mortality conditions of the table. The expectation of life at birth 4 is a particular case of expectation of life, and represents the mean length of life 4 of individuals who have been subjected since birth to the mortality of the table. The reciprocal of the expectation of life at birth is the life table death rate 5 or death rate of the stationary population 5.

  • 3. By integrating the survivorship function (432-3) between two exact given ages we obtain the total number of years lived by the cohort between these ages; the notation for the total number of years lived between age x and x + n is nLx . This function is often called the stationary population in life table column headings. By summing it from a given age x to the end of life, we obtain the total number of years to be lived after attaining age x by those reaching that age; the conventional notation is T x .
  • 4. The notation for the expectation of life at age x is ex

434

The median length of life 1 sometimes called the probable length of life 1 is the age at which half the original cohort of births have died. After infancy the distribution of deaths by age in the life table will usually have a mode and the corresponding age is called the modal age at death 2, or sometimes the normal age at death 2. It may be of interest as an indicator of human longevity 3 or the length of life 3 corresponding more closely to the sense in which the term is used in everyday language than either the average (433-4) or the median length of life. The term life span 4 is used to refer to the maximum possible length of human life.

435

A complete life table 1 is usually one in which the values of the life table functions (432-2) are given in single years of age. An abridged life table 2 is one in which most functions are given only for certain pivotal ages, frequently spaced at five or ten year intervals after infancy; intermediate values for the functions are usually obtained by some form of interpolation (151-7). The term life table for selected heads 3 is used to refer to a life table relating to the experience of a number of specially selected individuals, such as the clients of a life insurance company, in opposition to general life tables 4 which relate the experience of a whole population (101-4). Life tables are generally presented on a sex-specific basis although on occasion they are presented for both sexes. A life table which is based only upon the generalization of empirical relationships is called a model life table 5.

436

A calendar-year life table 1 or period life table 1 (cf. 153-2; 432-1) is one in which the mortality rates used relate to a specified time interval and the cohort (116-2) is therefore hypothetical. A generation life table 2, or cohort life table 2 on the other hand, traces the experience of an actual birth cohort and the mortality rates contained in the table are then spread over a prolonged period, usually about 100 years. A mortality surface 3 is drawn when probabilities of dying (431-1) are plotted against age and time period simultaneously in a three-dimensional diagram.

437

The Lexis diagram 1 is commonly used to illustrate the usual method for computing death probabilities and other demographic measures. In this diagram, every individual is represented by a life line 2 which begins at birth and ends in the point of death 3. A method for the study of mortality at very advanced ages has been called the method of extinct generations 4, because it uses observed deaths for cohorts which have been completely eliminated by mortality.


* * *

Go to: Introduction to Demopædia | Instructions on use | Downloads
Chapters: Preface | 1. General concepts | 2. The treatment and processing of population statistics | 3. Distribution and classification of the population | 4. Mortality and morbidity | 5. Nuptiality | 6. Fertility | 7. Population growth and replacement | 8. Spatial mobility | 9. Economic and social aspects of demography
Pages: 10 | 11 | 12 | 13 | 14 | 15 | 16 | 20 | 21 | 22 | 23 | 30 | 31 | 32 | 33 | 34 | 35 | 40 | 41 | 42 | 43 | 50 | 51 | 52 | 60 | 61 | 62 | 63 | 70 | 71 | 72 | 73 | 80 | 81 | 90 | 91 | 92 | 93
Index: Global Index | Index of chapter 1 | Index of chapter 2 | Index of chapter 3 | Index of chapter 4 | Index of chapter 5 | Index of chapter 6 | Index of chapter 7 | Index of chapter 8 | Index of chapter 9