Why are the trig functions versine, haversine, exsecant, etc, rarely used in modern mathematics? Unicorn Meta Zoo #1: Why another podcast? Announcing the arrival of Valued Associate #679: Cesar ManaraWhy do we need so many trigonometric definitions?Why do hyperbolic “trig” functions seem to be encountered rarely?When was the term “mathematics” first used?Why are trig functions defined for the unit circle?What are the formal terms for the intersection points of the geometric representation of the extended trigonometric functions?Why are the power series for trig functions in radians?Why are turns not used as the default angle measure?Why are the Trig functions defined by the counterclockwise path of a circle?How (or why) did Topology become so central to modern mathematics?Determining compositions of trig functions by knowing Euler's identity etcwhich trig identities are used here?
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Why are the trig functions versine, haversine, exsecant, etc, rarely used in modern mathematics?
Unicorn Meta Zoo #1: Why another podcast?
Announcing the arrival of Valued Associate #679: Cesar ManaraWhy do we need so many trigonometric definitions?Why do hyperbolic “trig” functions seem to be encountered rarely?When was the term “mathematics” first used?Why are trig functions defined for the unit circle?What are the formal terms for the intersection points of the geometric representation of the extended trigonometric functions?Why are the power series for trig functions in radians?Why are turns not used as the default angle measure?Why are the Trig functions defined by the counterclockwise path of a circle?How (or why) did Topology become so central to modern mathematics?Determining compositions of trig functions by knowing Euler's identity etcwhich trig identities are used here?
$begingroup$
I was browsing through a Wikipedia article about the trigonometric identities, when I came across something that caught my attention, namely forgotten trigonometric functions.
The versine (arguably the most basic of the functions), coversine, haversine and exsecant formulas had once been utilised for navigational purposes, prior to GPS tracking systems. However, recently, they have become less common in modern mathematics and beyond. Why is that?
Here is a link to a PDF file describing all of these now-obsolete trig functions:
- The Forgotten Trigonometric Functions, or
How Trigonometry was used in the Ancient Art of Navigation (Before GPS!)
trigonometry math-history spherical-trigonometry
edited Apr 18 at 5:28
Rodrigo de Azevedo
13.2k41962
asked Apr 17 at 10:24
Quantum EntanglementQuantum Entanglement
329210
New contributor
Quantum Entanglement is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
$endgroup$
add a comment |
$begingroup$
I was browsing through a Wikipedia article about the trigonometric identities, when I came across something that caught my attention, namely forgotten trigonometric functions.
The versine (arguably the most basic of the functions), coversine, haversine and exsecant formulas had once been utilised for navigational purposes, prior to GPS tracking systems. However, recently, they have become less common in modern mathematics and beyond. Why is that?
Here is a link to a PDF file describing all of these now-obsolete trig functions:
- The Forgotten Trigonometric Functions, or
How Trigonometry was used in the Ancient Art of Navigation (Before GPS!)
trigonometry math-history spherical-trigonometry
edited Apr 18 at 5:28
Rodrigo de Azevedo
13.2k41962
asked Apr 17 at 10:24
Quantum EntanglementQuantum Entanglement
329210
New contributor
Quantum Entanglement is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
$endgroup$
1
$begingroup$
Possibly related: math.stackexchange.com/questions/2713500/… .
$endgroup$
– Xander Henderson
Apr 18 at 4:07
$begingroup$
Natural selection at work. With those function, many formulas are ugly.
$endgroup$
– Yves Daoust
Apr 19 at 12:35
add a comment |
$begingroup$
I was browsing through a Wikipedia article about the trigonometric identities, when I came across something that caught my attention, namely forgotten trigonometric functions.
The versine (arguably the most basic of the functions), coversine, haversine and exsecant formulas had once been utilised for navigational purposes, prior to GPS tracking systems. However, recently, they have become less common in modern mathematics and beyond. Why is that?
Here is a link to a PDF file describing all of these now-obsolete trig functions:
- The Forgotten Trigonometric Functions, or
How Trigonometry was used in the Ancient Art of Navigation (Before GPS!)
trigonometry math-history spherical-trigonometry
edited Apr 18 at 5:28
Rodrigo de Azevedo
13.2k41962
asked Apr 17 at 10:24
Quantum EntanglementQuantum Entanglement
329210
New contributor
Quantum Entanglement is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
$endgroup$
I was browsing through a Wikipedia article about the trigonometric identities, when I came across something that caught my attention, namely forgotten trigonometric functions.
The versine (arguably the most basic of the functions), coversine, haversine and exsecant formulas had once been utilised for navigational purposes, prior to GPS tracking systems. However, recently, they have become less common in modern mathematics and beyond. Why is that?
Here is a link to a PDF file describing all of these now-obsolete trig functions:
- The Forgotten Trigonometric Functions, or
How Trigonometry was used in the Ancient Art of Navigation (Before GPS!)
trigonometry math-history spherical-trigonometry
trigonometry math-history spherical-trigonometry
edited Apr 18 at 5:28
Rodrigo de Azevedo
13.2k41962
asked Apr 17 at 10:24
Quantum EntanglementQuantum Entanglement
329210
New contributor
Quantum Entanglement is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
edited Apr 18 at 5:28
Rodrigo de Azevedo
13.2k41962
asked Apr 17 at 10:24
Quantum EntanglementQuantum Entanglement
329210
New contributor
Quantum Entanglement is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
edited Apr 18 at 5:28
Rodrigo de Azevedo
13.2k41962
edited Apr 18 at 5:28
Rodrigo de Azevedo
13.2k41962
edited Apr 18 at 5:28
Rodrigo de Azevedo
13.2k41962
13.2k41962
asked Apr 17 at 10:24
Quantum EntanglementQuantum Entanglement
329210
New contributor
Quantum Entanglement is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
asked Apr 17 at 10:24
Quantum EntanglementQuantum Entanglement
329210
asked Apr 17 at 10:24
Quantum EntanglementQuantum Entanglement
329210
329210
New contributor
Quantum Entanglement is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
New contributor
Quantum Entanglement is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
Quantum Entanglement is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
1
$begingroup$
Possibly related: math.stackexchange.com/questions/2713500/… .
$endgroup$
– Xander Henderson
Apr 18 at 4:07
$begingroup$
Natural selection at work. With those function, many formulas are ugly.
$endgroup$
– Yves Daoust
Apr 19 at 12:35
add a comment |
1
$begingroup$
Possibly related: math.stackexchange.com/questions/2713500/… .
$endgroup$
– Xander Henderson
Apr 18 at 4:07
$begingroup$
Natural selection at work. With those function, many formulas are ugly.
$endgroup$
– Yves Daoust
Apr 19 at 12:35
1
1
$begingroup$
Possibly related: math.stackexchange.com/questions/2713500/… .
$endgroup$
– Xander Henderson
Apr 18 at 4:07
$begingroup$
Possibly related: math.stackexchange.com/questions/2713500/… .
$endgroup$
– Xander Henderson
Apr 18 at 4:07
$begingroup$
Natural selection at work. With those function, many formulas are ugly.
$endgroup$
– Yves Daoust
Apr 19 at 12:35
$begingroup$
Natural selection at work. With those function, many formulas are ugly.
$endgroup$
– Yves Daoust
Apr 19 at 12:35
add a comment |
2 Answers
2
active
oldest
votes
$begingroup$
Those functions are much less used than before for one reason: the advent of electronic computers.
Before that, one had to rely either on tables or on slide rules. Tables were usually table of logarithms, and they included the logarithms of trigonometric functions as well. The trigonometric functions were then useful not only for geometric applications, but also to simplify algebraic calculations with logarithms.
For instance, to compute $logsqrta^2+b^2$ when $log a$ and $log b$ are known, you could find $theta$ such that $logtantheta=logfrac ba=log b-log a$, then $logsqrta^2+b^2=log a+logsqrt1+tan^2theta$ and $logsqrt1+tan^2theta=logfrac1cos theta=-logcostheta$. There are many similar formulas.
For geometric applications, sometimes versine and similar functions allow computing with greater precision while not adding too much computation. See for instance the haversine formula used to compute great circle distance (useful in navigation). The straightforward formula with arccosine has poor accuracy when the angle is small (the most common case), due to the fact that cosine is flat at $0$. However the formula with haversine is more accurate. To achieve the same, you would have to use $sin^2(theta/2)$ everywhere, which require more computations (but it's still reasonable with logarithms). Therefore, navigation table like Nories's nautical tables have an haversine table.
Note that tables of logarithms are usually accurate up to 5 digits (some larger tables had 7 digits, some very special ones had better precision but were difficult to use : more digits = much more space on paper). Slide rules have roughly 3 digits of precision.
All of this is rendered pretty useless with calculators, which have usually around 15 digits of precision and compute fast enough that we don't have to worry about speeding things up with extra functions.
answered Apr 17 at 10:43
Jean-Claude ArbautJean-Claude Arbaut
15.5k63865
$endgroup$
9
$begingroup$
The log tables we used at school were four figure. I repeatedly got marked down (indirectly) for using five figure tables: I gave my answers to four figure precision, rather than the three I should have done if I were using four figure tables
$endgroup$
– JCRM
Apr 17 at 12:28
1
$begingroup$
Oddly enough, I bought a log book 5 years back. I have no idea what my 11 year old self was thinking, but it was pretty cool.
$endgroup$
– Mohammad Zuhair Khan
Apr 17 at 13:49
1
$begingroup$
Just re-opened the log table. 6 digits of accuracy for logs, anti-logs, trig functions, log of trig functions and so much more at 47 cents in the US. 61 pages including "some" formula and useful data.
$endgroup$
– Mohammad Zuhair Khan
Apr 17 at 14:06
2
$begingroup$
@Keith No evidence, but I have a hunch that the additional functions, as well as the tables, were never meant for higher mathematics, but were intended for practical applications in which one does have to evaluate expressions.
$endgroup$
– David K
Apr 18 at 0:51
5
$begingroup$
Completely unrelated, but physical log tables have actually lead to at least one important discovery in mathematics: Benford's Law. As someone who used to work as an archaeologist, I sometimes morn the loss of our physical implements. :
$endgroup$
– Xander Henderson
Apr 18 at 3:32
|
show 6 more comments
$begingroup$
Historically, those oddball functions were used primarily in navigation to reduce sextant readings and times to latitude and longitude. With the advent of radio, the need for that was greatly reduced, as we have radio direction finding, loran, and, more recently, GPS.
answered 3 hours ago
richard1941richard1941
51329
$endgroup$
add a comment |
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2 Answers
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active
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2 Answers
2
active
oldest
votes
active
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active
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votes
$begingroup$
Those functions are much less used than before for one reason: the advent of electronic computers.
Before that, one had to rely either on tables or on slide rules. Tables were usually table of logarithms, and they included the logarithms of trigonometric functions as well. The trigonometric functions were then useful not only for geometric applications, but also to simplify algebraic calculations with logarithms.
For instance, to compute $logsqrta^2+b^2$ when $log a$ and $log b$ are known, you could find $theta$ such that $logtantheta=logfrac ba=log b-log a$, then $logsqrta^2+b^2=log a+logsqrt1+tan^2theta$ and $logsqrt1+tan^2theta=logfrac1cos theta=-logcostheta$. There are many similar formulas.
For geometric applications, sometimes versine and similar functions allow computing with greater precision while not adding too much computation. See for instance the haversine formula used to compute great circle distance (useful in navigation). The straightforward formula with arccosine has poor accuracy when the angle is small (the most common case), due to the fact that cosine is flat at $0$. However the formula with haversine is more accurate. To achieve the same, you would have to use $sin^2(theta/2)$ everywhere, which require more computations (but it's still reasonable with logarithms). Therefore, navigation table like Nories's nautical tables have an haversine table.
Note that tables of logarithms are usually accurate up to 5 digits (some larger tables had 7 digits, some very special ones had better precision but were difficult to use : more digits = much more space on paper). Slide rules have roughly 3 digits of precision.
All of this is rendered pretty useless with calculators, which have usually around 15 digits of precision and compute fast enough that we don't have to worry about speeding things up with extra functions.
answered Apr 17 at 10:43
Jean-Claude ArbautJean-Claude Arbaut
15.5k63865
$endgroup$
9
$begingroup$
The log tables we used at school were four figure. I repeatedly got marked down (indirectly) for using five figure tables: I gave my answers to four figure precision, rather than the three I should have done if I were using four figure tables
$endgroup$
– JCRM
Apr 17 at 12:28
1
$begingroup$
Oddly enough, I bought a log book 5 years back. I have no idea what my 11 year old self was thinking, but it was pretty cool.
$endgroup$
– Mohammad Zuhair Khan
Apr 17 at 13:49
1
$begingroup$
Just re-opened the log table. 6 digits of accuracy for logs, anti-logs, trig functions, log of trig functions and so much more at 47 cents in the US. 61 pages including "some" formula and useful data.
$endgroup$
– Mohammad Zuhair Khan
Apr 17 at 14:06
2
$begingroup$
@Keith No evidence, but I have a hunch that the additional functions, as well as the tables, were never meant for higher mathematics, but were intended for practical applications in which one does have to evaluate expressions.
$endgroup$
– David K
Apr 18 at 0:51
5
$begingroup$
Completely unrelated, but physical log tables have actually lead to at least one important discovery in mathematics: Benford's Law. As someone who used to work as an archaeologist, I sometimes morn the loss of our physical implements. :
$endgroup$
– Xander Henderson
Apr 18 at 3:32
|
show 6 more comments
$begingroup$
Those functions are much less used than before for one reason: the advent of electronic computers.
Before that, one had to rely either on tables or on slide rules. Tables were usually table of logarithms, and they included the logarithms of trigonometric functions as well. The trigonometric functions were then useful not only for geometric applications, but also to simplify algebraic calculations with logarithms.
For instance, to compute $logsqrta^2+b^2$ when $log a$ and $log b$ are known, you could find $theta$ such that $logtantheta=logfrac ba=log b-log a$, then $logsqrta^2+b^2=log a+logsqrt1+tan^2theta$ and $logsqrt1+tan^2theta=logfrac1cos theta=-logcostheta$. There are many similar formulas.
For geometric applications, sometimes versine and similar functions allow computing with greater precision while not adding too much computation. See for instance the haversine formula used to compute great circle distance (useful in navigation). The straightforward formula with arccosine has poor accuracy when the angle is small (the most common case), due to the fact that cosine is flat at $0$. However the formula with haversine is more accurate. To achieve the same, you would have to use $sin^2(theta/2)$ everywhere, which require more computations (but it's still reasonable with logarithms). Therefore, navigation table like Nories's nautical tables have an haversine table.
Note that tables of logarithms are usually accurate up to 5 digits (some larger tables had 7 digits, some very special ones had better precision but were difficult to use : more digits = much more space on paper). Slide rules have roughly 3 digits of precision.
All of this is rendered pretty useless with calculators, which have usually around 15 digits of precision and compute fast enough that we don't have to worry about speeding things up with extra functions.
answered Apr 17 at 10:43
Jean-Claude ArbautJean-Claude Arbaut
15.5k63865
$endgroup$
9
$begingroup$
The log tables we used at school were four figure. I repeatedly got marked down (indirectly) for using five figure tables: I gave my answers to four figure precision, rather than the three I should have done if I were using four figure tables
$endgroup$
– JCRM
Apr 17 at 12:28
1
$begingroup$
Oddly enough, I bought a log book 5 years back. I have no idea what my 11 year old self was thinking, but it was pretty cool.
$endgroup$
– Mohammad Zuhair Khan
Apr 17 at 13:49
1
$begingroup$
Just re-opened the log table. 6 digits of accuracy for logs, anti-logs, trig functions, log of trig functions and so much more at 47 cents in the US. 61 pages including "some" formula and useful data.
$endgroup$
– Mohammad Zuhair Khan
Apr 17 at 14:06
2
$begingroup$
@Keith No evidence, but I have a hunch that the additional functions, as well as the tables, were never meant for higher mathematics, but were intended for practical applications in which one does have to evaluate expressions.
$endgroup$
– David K
Apr 18 at 0:51
5
$begingroup$
Completely unrelated, but physical log tables have actually lead to at least one important discovery in mathematics: Benford's Law. As someone who used to work as an archaeologist, I sometimes morn the loss of our physical implements. :
$endgroup$
– Xander Henderson
Apr 18 at 3:32
|
show 6 more comments
$begingroup$
Those functions are much less used than before for one reason: the advent of electronic computers.
Before that, one had to rely either on tables or on slide rules. Tables were usually table of logarithms, and they included the logarithms of trigonometric functions as well. The trigonometric functions were then useful not only for geometric applications, but also to simplify algebraic calculations with logarithms.
For instance, to compute $logsqrta^2+b^2$ when $log a$ and $log b$ are known, you could find $theta$ such that $logtantheta=logfrac ba=log b-log a$, then $logsqrta^2+b^2=log a+logsqrt1+tan^2theta$ and $logsqrt1+tan^2theta=logfrac1cos theta=-logcostheta$. There are many similar formulas.
For geometric applications, sometimes versine and similar functions allow computing with greater precision while not adding too much computation. See for instance the haversine formula used to compute great circle distance (useful in navigation). The straightforward formula with arccosine has poor accuracy when the angle is small (the most common case), due to the fact that cosine is flat at $0$. However the formula with haversine is more accurate. To achieve the same, you would have to use $sin^2(theta/2)$ everywhere, which require more computations (but it's still reasonable with logarithms). Therefore, navigation table like Nories's nautical tables have an haversine table.
Note that tables of logarithms are usually accurate up to 5 digits (some larger tables had 7 digits, some very special ones had better precision but were difficult to use : more digits = much more space on paper). Slide rules have roughly 3 digits of precision.
All of this is rendered pretty useless with calculators, which have usually around 15 digits of precision and compute fast enough that we don't have to worry about speeding things up with extra functions.
answered Apr 17 at 10:43
Jean-Claude ArbautJean-Claude Arbaut
15.5k63865
$endgroup$
Those functions are much less used than before for one reason: the advent of electronic computers.
Before that, one had to rely either on tables or on slide rules. Tables were usually table of logarithms, and they included the logarithms of trigonometric functions as well. The trigonometric functions were then useful not only for geometric applications, but also to simplify algebraic calculations with logarithms.
For instance, to compute $logsqrta^2+b^2$ when $log a$ and $log b$ are known, you could find $theta$ such that $logtantheta=logfrac ba=log b-log a$, then $logsqrta^2+b^2=log a+logsqrt1+tan^2theta$ and $logsqrt1+tan^2theta=logfrac1cos theta=-logcostheta$. There are many similar formulas.
For geometric applications, sometimes versine and similar functions allow computing with greater precision while not adding too much computation. See for instance the haversine formula used to compute great circle distance (useful in navigation). The straightforward formula with arccosine has poor accuracy when the angle is small (the most common case), due to the fact that cosine is flat at $0$. However the formula with haversine is more accurate. To achieve the same, you would have to use $sin^2(theta/2)$ everywhere, which require more computations (but it's still reasonable with logarithms). Therefore, navigation table like Nories's nautical tables have an haversine table.
Note that tables of logarithms are usually accurate up to 5 digits (some larger tables had 7 digits, some very special ones had better precision but were difficult to use : more digits = much more space on paper). Slide rules have roughly 3 digits of precision.
All of this is rendered pretty useless with calculators, which have usually around 15 digits of precision and compute fast enough that we don't have to worry about speeding things up with extra functions.
answered Apr 17 at 10:43
Jean-Claude ArbautJean-Claude Arbaut
15.5k63865
edited Apr 17 at 10:49
answered Apr 17 at 10:43
Jean-Claude ArbautJean-Claude Arbaut
15.5k63865
answered Apr 17 at 10:43
Jean-Claude ArbautJean-Claude Arbaut
15.5k63865
answered Apr 17 at 10:43
Jean-Claude ArbautJean-Claude Arbaut
15.5k63865
15.5k63865
9
$begingroup$
The log tables we used at school were four figure. I repeatedly got marked down (indirectly) for using five figure tables: I gave my answers to four figure precision, rather than the three I should have done if I were using four figure tables
$endgroup$
– JCRM
Apr 17 at 12:28
1
$begingroup$
Oddly enough, I bought a log book 5 years back. I have no idea what my 11 year old self was thinking, but it was pretty cool.
$endgroup$
– Mohammad Zuhair Khan
Apr 17 at 13:49
1
$begingroup$
Just re-opened the log table. 6 digits of accuracy for logs, anti-logs, trig functions, log of trig functions and so much more at 47 cents in the US. 61 pages including "some" formula and useful data.
$endgroup$
– Mohammad Zuhair Khan
Apr 17 at 14:06
2
$begingroup$
@Keith No evidence, but I have a hunch that the additional functions, as well as the tables, were never meant for higher mathematics, but were intended for practical applications in which one does have to evaluate expressions.
$endgroup$
– David K
Apr 18 at 0:51
5
$begingroup$
Completely unrelated, but physical log tables have actually lead to at least one important discovery in mathematics: Benford's Law. As someone who used to work as an archaeologist, I sometimes morn the loss of our physical implements. :
$endgroup$
– Xander Henderson
Apr 18 at 3:32
|
show 6 more comments
9
$begingroup$
The log tables we used at school were four figure. I repeatedly got marked down (indirectly) for using five figure tables: I gave my answers to four figure precision, rather than the three I should have done if I were using four figure tables
$endgroup$
– JCRM
Apr 17 at 12:28
1
$begingroup$
Oddly enough, I bought a log book 5 years back. I have no idea what my 11 year old self was thinking, but it was pretty cool.
$endgroup$
– Mohammad Zuhair Khan
Apr 17 at 13:49
1
$begingroup$
Just re-opened the log table. 6 digits of accuracy for logs, anti-logs, trig functions, log of trig functions and so much more at 47 cents in the US. 61 pages including "some" formula and useful data.
$endgroup$
– Mohammad Zuhair Khan
Apr 17 at 14:06
2
$begingroup$
@Keith No evidence, but I have a hunch that the additional functions, as well as the tables, were never meant for higher mathematics, but were intended for practical applications in which one does have to evaluate expressions.
$endgroup$
– David K
Apr 18 at 0:51
5
$begingroup$
Completely unrelated, but physical log tables have actually lead to at least one important discovery in mathematics: Benford's Law. As someone who used to work as an archaeologist, I sometimes morn the loss of our physical implements. :
$endgroup$
– Xander Henderson
Apr 18 at 3:32
9
9
$begingroup$
The log tables we used at school were four figure. I repeatedly got marked down (indirectly) for using five figure tables: I gave my answers to four figure precision, rather than the three I should have done if I were using four figure tables
$endgroup$
– JCRM
Apr 17 at 12:28
$begingroup$
The log tables we used at school were four figure. I repeatedly got marked down (indirectly) for using five figure tables: I gave my answers to four figure precision, rather than the three I should have done if I were using four figure tables
$endgroup$
– JCRM
Apr 17 at 12:28
1
1
$begingroup$
Oddly enough, I bought a log book 5 years back. I have no idea what my 11 year old self was thinking, but it was pretty cool.
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– Mohammad Zuhair Khan
Apr 17 at 13:49
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Oddly enough, I bought a log book 5 years back. I have no idea what my 11 year old self was thinking, but it was pretty cool.
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– Mohammad Zuhair Khan
Apr 17 at 13:49
1
1
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Just re-opened the log table. 6 digits of accuracy for logs, anti-logs, trig functions, log of trig functions and so much more at 47 cents in the US. 61 pages including "some" formula and useful data.
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– Mohammad Zuhair Khan
Apr 17 at 14:06
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Just re-opened the log table. 6 digits of accuracy for logs, anti-logs, trig functions, log of trig functions and so much more at 47 cents in the US. 61 pages including "some" formula and useful data.
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– Mohammad Zuhair Khan
Apr 17 at 14:06
2
2
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@Keith No evidence, but I have a hunch that the additional functions, as well as the tables, were never meant for higher mathematics, but were intended for practical applications in which one does have to evaluate expressions.
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– David K
Apr 18 at 0:51
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@Keith No evidence, but I have a hunch that the additional functions, as well as the tables, were never meant for higher mathematics, but were intended for practical applications in which one does have to evaluate expressions.
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– David K
Apr 18 at 0:51
5
5
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Completely unrelated, but physical log tables have actually lead to at least one important discovery in mathematics: Benford's Law. As someone who used to work as an archaeologist, I sometimes morn the loss of our physical implements. :
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– Xander Henderson
Apr 18 at 3:32
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Completely unrelated, but physical log tables have actually lead to at least one important discovery in mathematics: Benford's Law. As someone who used to work as an archaeologist, I sometimes morn the loss of our physical implements. :
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– Xander Henderson
Apr 18 at 3:32
|
show 6 more comments
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Historically, those oddball functions were used primarily in navigation to reduce sextant readings and times to latitude and longitude. With the advent of radio, the need for that was greatly reduced, as we have radio direction finding, loran, and, more recently, GPS.
answered 3 hours ago
richard1941richard1941
51329
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add a comment |
$begingroup$
Historically, those oddball functions were used primarily in navigation to reduce sextant readings and times to latitude and longitude. With the advent of radio, the need for that was greatly reduced, as we have radio direction finding, loran, and, more recently, GPS.
answered 3 hours ago
richard1941richard1941
51329
$endgroup$
add a comment |
$begingroup$
Historically, those oddball functions were used primarily in navigation to reduce sextant readings and times to latitude and longitude. With the advent of radio, the need for that was greatly reduced, as we have radio direction finding, loran, and, more recently, GPS.
answered 3 hours ago
richard1941richard1941
51329
$endgroup$
Historically, those oddball functions were used primarily in navigation to reduce sextant readings and times to latitude and longitude. With the advent of radio, the need for that was greatly reduced, as we have radio direction finding, loran, and, more recently, GPS.
answered 3 hours ago
richard1941richard1941
51329
answered 3 hours ago
richard1941richard1941
51329
answered 3 hours ago
richard1941richard1941
51329
answered 3 hours ago
richard1941richard1941
51329
51329
add a comment |
add a comment |
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Possibly related: math.stackexchange.com/questions/2713500/… .
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– Xander Henderson
Apr 18 at 4:07
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Natural selection at work. With those function, many formulas are ugly.
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– Yves Daoust
Apr 19 at 12:35