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正弦、余弦、正切查对表
篇一:查正切函数表
三角函数表查询
篇二:查正切函数表
(1)特殊角三角函数值
sin0=0
sin30=0.5
sin45=0.7071 二分之根号2
sin60=0.8660 二分之根号3
sin90=1
cos0=1
cos30=0.866025404 二分之根号3
cos45=0.707106781 二分之根号2
cos60=0.5
cos90=0
tan0=0
tan30=0.577350269 三分之根号3
tan45=1
tan60=1.732050808 根号3
tan90=无
cot0=无
cot30=1.732050808 根号3
cot45=1
cot60=0.577350269 三分之根号3
cot90=0
(2)0°~90°的任意角的三角函数值,查三角函数表。(见下)
(3)锐角三角函数值的变化情况
(i)锐角三角函数值都是正值
(ii)当角度在0°~90°间变化时,
正弦值随着角度的增大(或减小)而增大(或减小)
余弦值随着角度的增大(或减小)而减小(或增大)
正切值随着角度的增大(或减小)而增大(或减小)
余切值随着角度的增大(或减小)而减小(或增大)
(iii)当角度在0°≤α≤90°间变化时,
0≤sinα≤1, 1≥cosα≥0,
当角度在0°<α<90°间变化时,
tanα>0, cotα>0.
“锐角三角函数”属于三角学,是《数学课程标准》中“空间与图形”领域的重要内容。从《数学课程标准》看,中学数学把三角学内容分成两个部分,第一部分放在义务教育第三学段,第二部分放在高中阶段。在义务教育第三学段,主要研究锐角三角函数和解直角三角形的内容,本套教科书安排了一章的内容,就是本章“锐角三角函数”。在高中阶段的三角内容是三角学的主体部分,包括解斜三角形、三角函数、反三角函数和简单的三角方程。无论是从内容上看,还是从思考问题的方法上看,前一部分都是后一部分的重要基础,掌握锐角三角函数的概念和解直角三角形的方法,是学习三角函数和解斜三角形的重要准备。 附:三角函数值表
sin0=0,
sin15=(√6-√2)/4 ,
sin30=1/2,
sin45=√2/2,
sin60=√3/2,
sin75=(√6+√2)/2 ,
sin90=1,
sin105=√2/2*(√3/2+1/2)
sin120=√3/2查正切函数表。
sin135=√2/2
sin150=1/2
sin165=(√6-√2)/4
sin180=0
sin270=-1
sin360=0
sin1=0.01745240643728351 sin2=0.03489949670250097 sin3=0.05233595624294383 sin4=0.0697564737441253 sin5=0.08715574274765816 sin6=0.10452846326765346 sin7=0.12186934340514747 sin8=0.13917310096006544 sin9=0.15643446504023087 sin10=0.17364817766693033 sin11=0.1908089953765448 sin12=0.20791169081775931
sin13=0.22495105434386497 sin14=0.24192189559966773 sin15=0.25881904510252074
sin16=0.27563735581699916 sin17=0.2923717047227367 sin18=0.3090169943749474
sin19=0.3255681544571567 sin20=0.3420201433256687 sin21=0.35836794954530027
sin22=0.374606593415912 sin23=0.3907311284892737 sin24=0.40673664307580015 sin25=0.42261826174069944 sin26=0.4383711467890774 sin27=0.45399049973954675
sin28=0.4694715627858908 sin29=0.48480962024633706 sin30=0.49999999999999994
sin31=0.5150380749100542 sin32=0.5299192642332049 sin33=0.544639035015027 sin34=0.5591929034707468 sin35=0.573576436351046 sin36=0.5877852522924731 sin37=0.6018150231520483 sin38=0.6156614753256583 sin39=0.6293203910498375 sin40=0.6427876096865392 sin41=0.6560590289905073 sin42=0.6691306063588582 sin43=0.6819983600624985 sin44=0.6946583704589972 sin45=0.7071067811865475 sin46=0.7193398003386511 sin47=0.7313537016191705 sin48=0.7431448254773941 sin49=0.7547095802227719 sin50=0.766044443118978 sin51=0.7771459614569708 sin52=0.7880107536067219 sin53=0.7986355100472928 sin54=0.8090169943749474 sin55=0.8191520442889918 sin56=0.8290375725550417 sin57=0.8386705679454239 sin58=0.848048096156426 sin59=0.8571673007021122 sin60=0.8660254037844386 sin61=0.8746197071393957 sin62=0.8829475928589269 sin63=0.8910065241883678 sin64=0.898794046299167 sin65=0.9063077870366499 sin66=0.9135454576426009 sin67=0.9205048534524404 sin68=0.9271838545667873 sin69=0.9335804264972017 sin70=0.9396926207859083 sin71=0.9455185755993167 sin72=0.9510565162951535 sin73=0.9563047559630354 sin74=0.9612616959383189 sin75=0.9659258262890683
sin76=0.9702957262759965 sin77=0.9743700647852352 sin78=0.9781476007338057 sin79=0.981627183447664 sin80=0.984807753012208 sin81=0.9876883405951378 sin82=0.9902680687415704 sin83=0.992546151641322 sin84=0.9945218953682733 sin85=0.9961946980917455 sin86=0.9975640502598242 sin87=0.9986295347545738 sin88=0.9993908270190958 sin89=0.9998476951563913
sin90=1
cos1=0.9998476951563913 cos2=0.9993908270190958 cos3=0.9986295347545738 cos4=0.9975640502598242 cos5=0.9961946980917455 cos6=0.9945218953682733 cos7=0.992546151641322 cos8=0.9902680687415704 cos9=0.9876883405951378 cos10=0.984807753012208 cos11=0.981627183447664 cos12=0.9781476007338057 cos13=0.9743700647852352 cos14=0.9702957262759965 cos15=0.9659258262890683 cos16=0.9612616959383189 cos17=0.9563047559630355 cos18=0.9510565162951535 cos19=0.9455185755993168 cos20=0.9396926207859084 cos21=0.9335804264972017 cos22=0.9271838545667874 cos23=0.9205048534524404 cos24=0.9135454576426009 cos25=0.9063077870366499 cos26=0.898794046299167 cos27=0.8910065241883679 cos28=0.882947592858927 cos29=0.8746197071393957 cos30=0.8660254037844387 cos31=0.8571673007021123 cos32=0.848048096156426 cos33=0.838670567945424 cos34=0.8290375725550417 cos35=0.8191520442889918 cos36=0.8090169943749474 cos37=0.7986355100472928 cos38=0.7880107536067219 cos39=0.7771459614569709 cos40=0.766044443118978 cos41=0.754709580222772 cos42=0.7431448254773942 cos43=0.7313537016191705 cos44=0.7193398003386512 cos45=0.7071067811865476 cos46=0.6946583704589974 cos47=0.6819983600624985 cos48=0.6691306063588582 cos49=0.6560590289905074 cos50=0.6427876096865394 cos51=0.6293203910498375 cos52=0.6156614753256583 cos53=0.6018150231520484 cos54=0.5877852522924731 cos55=0.5735764363510462 cos56=0.5591929034707468 cos57=0.5446390350150272 cos58=0.5299192642332049 cos59=0.5150380749100544 cos60=0.5000000000000001 cos61=0.4848096202463371 cos62=0.46947156278589086 cos63=0.4539904997395468
cos64=0.43837114678907746 cos65=0.42261826174069944 cos66=0.4067366430758004
cos67=0.3907311284892737 cos68=0.3746065934159122 cos69=0.35836794954530015
cos70=0.3420201433256688 cos71=0.32556815445715675 cos72=0.30901699437494745
cos73=0.29237170472273677 cos74=0.27563735581699916 cos75=0.25881904510252074
cos76=0.24192189559966767 cos77=0.22495105434386514 cos78=0.207911690817759
23
cos79=0.19080899537654491 cos80=0.17364817766693041 cos81=0.15643446504023092
cos82=0.13917310096006546 cos83=0.12186934340514749 cos84=0.10452846326765346
cos85=0.08715574274765836 cos86=0.06975647374412523 cos87=0.052335956242943966
cos88=0.03489949670250108 cos89=0.0174524064372836
cos90=0
tan1=0.017455064928217585 tan2=0.03492076949174773 tan3=0.052407779283041196
tan4=0.06992681194351041 tan5=0.08748866352592401 tan6=0.10510423526567646 tan7=0.1227845609029046 tan8=0.14054083470239145 tan9=0.15838444032453627 tan10=0.17632698070846497 tan11=0.19438030913771848 tan12=0.2125565616700221
tan13=0.2308681911255631 tan14=0.24932800284318068 tan15=0.2679491924311227
tan16=0.2867453857588079 tan17=0.30573068145866033 tan18=0.3249196962329063
tan19=0.34432761328966527 tan20=0.36397023426620234 tan21=0.3838640350354158
tan22=0.4040262258351568 tan23=0.4244748162096047 tan24=0.4452286853085361 tan25=0.4663076581549986 tan26=0.4877325885658614 tan27=0.5095254494944288 tan28=0.5317094316614788 tan29=0.554309051452769 tan30=0.5773502691896257 tan31=0.6008606190275604 tan32=0.6248693519093275 tan33=0.6494075931975104 tan34=0.6745085168424265 tan35=0.7002075382097097 tan36=0.7265425280053609 tan37=0.7535540501027942 tan38=0.7812856265067174 tan39=0.8097840331950072 tan40=0.8390996311772799 tan41=0.8692867378162267 tan42=0.9004040442978399 tan43=0.9325150861376618 tan44=0.9656887748070739 tan45=0.9999999999999999 tan46=1.0355303137905693 tan47=1.0723687100246826 tan48=1.1106125148291927 tan49=1.1503684072210092 tan50=1.19175359259421 tan51=1.234897156535051 tan52=1.2799416321930785 tan53=1.3270448216204098 tan54=1.3763819204711733 tan55=1.4281480067421144 tan56=1.4825609685127403 tan57=1.5398649638145827 tan58=1.6003345290410506 tan59=1.6642794823505173 tan60=1.7320508075688767 tan61=1.8040477552714235 tan62=1.8807264653463318 tan63=1.9626105055051503 tan64=2.050303841579296 tan65=2.1445069205095586 tan66=2.246036773904215 tan67=2.355852365823753 tan68=2.4750868534162946 tan69=2.6050890646938023
关于DSP的一些反正切查表算法的编写
篇三:查正切函数表
关于DSP的一些反正切查表算法的编写 一直在拿TMS20F28335做电机控制,也从早前的简单寄存器IO口配置时代过渡到了真正的算法时代,很不适应,起初去查各种书籍,网上搜索各种网站,发现书本上讲的很多都是快速傅里叶啊啥的,找不到很原始的像啥低通滤波器,正弦,正切这些函数的编写。
起初写程序发现,C2000的库里支持啥正弦函数,浮点预算,反正弦函数,开根运算等算法,好兴奋。用了才知道,太慢了,根本没法用在工程上。
关于三角函数的编写,其实都是利用查表发,查表法大家应该都懂。这个就不再赘述,怎样去查一个正弦表呢?这里做一个基本的介绍。
首先,你可以自己写一个查表数组,也可以在程序初始化生成一个。 Eg:
void SinCOS_TAB(void)
{
unsigned char i; float Theta; for(i=0;i<TAB_Max;i++) // #define TAB_Max 180 { Theta = i * Step_Angle; // Step_Angle=1.74532925E-02 Sin_tab[i] =sin(Theta); // 生成正弦表数组,利用了库里现成的SIN函数 Cos_tab[i] =cos(Theta); // 生成余弦表数组 }
}
为啥我的数组里面只有180个元素呢?一:我的精度要求不高,我是一度一个步进角的,如果你要更高的精度,你可以选择容量更大的数组。二:我不想因为庞大的浮点数组占据太大的存储空间,所以我利用了奇函数,偶函数的原理
再次,就进入正题写查表程序,就我们初中数学所知,正弦函数是奇函数,余弦函数是偶函数,所以我只用了360角度中的一半。
下面为正弦查表程序:
/*Refer to the truth that DSP use some SinCos operation will use six or more command
* periods , So I look up the pre_generate SINCOS_TAB to speed up the Execution speed*/
float SinF(float single)
{
int i=(int)(single*180/pi); float value=0; if(i<0) value = -Sin_tab[i]; else value = Sin_tab[i]; return value;
}
看起来应该很简单吧,余弦,正切,余切的编写和上面基本相似。
下面来探讨一下反正弦,反正切函数的编写
我在网上查了一下,运用函数库的反正弦,正切指令计算一个至少需要400以上各时钟周期,网上也有很多方法,看了有些能看懂,但大多看了头疼。自己呢,还是从正切函数的曲线出手,利用单调递增写了一个查表函数,已在MATLAB上实验过。
一次函数线性逼近正弦函数
这是我算法在MATLAB上面实验的程序:
function single = tanflook( a )
%UNTITLED Summary of this function goes here
% Detailed explanation goes here
global theta;
%global single;查正切函数表。
global Actan_tab;
global x;
global res;
theta=-90:90;
theta=theta*3.141596/360;
Actan_tab=1000*tan(theta);
pi
z=input('the Z scale is :');
y=input('the Y scale is :');
a=(z+y>=0);
a
b=(z-y<=0);
b
if((a==b))
single = z/y;
else
single = y/z;
end
tab =fix(single*99-8)+90;
tab
comp=fix(single*1000);
for i=tab:181
if(comp>=Actan_tab(i))&&(comp<Actan_tab(i+1))
break;
% else
% i=i+1;
end
end
i
c = (i>90);
c
single= (i-90)/360*pi;
x=2*b+a;
% x=2;
switch x
case 0
single=-pi/2-single;%break; %case
0:single=single;break;
case 1
;%break;
case 2
single=pi+single-2*pi*c;%break;
case 3
single=pi/2-single;%break;
end
x
disp('the single value is ');
disp(180*single/3.141596);
End
讲讲原理吧,感觉还是有点东西,还是从那个一次函数线性逼近正弦函数的地方说起,为什么要这样了,因为我们从图上可见发觉,每一个正弦值其实都在某段线性函数包围之间,我们已知了正切值,利用正切函数的线性递增原理,可以大致推断出他所处的大概位置,然后再查建立好的表,这里就不要再用处理器去生成了,查表时应尽量避免浮点数运算来节约时间,我们就可以精确的算法所对应的角度。试验了一下,最差的情况下差不多要消耗40个时钟周期。
关于上面几个CASE的推导,可以仿造SVPWM里面推导CASE的方法,感兴趣的可以推导一下,还是蛮有意思的,千万不要糊涂。
东西感觉不是很多,主要自己会的比较少,希望对大家有帮助,如果那个地方讲的不对,还请大神能及时指出,与我进行交流,我很喜欢和别人探讨
三角函数及取值表
篇四:查正切函数表
(1)特殊角三角函数值
sin0=0
sin30=0.5
sin45=0.7071 二分之根号2
sin60=0.8660 二分之根号3
sin90=1
cos0=1
cos30=0.866025404 二分之根号3
cos45=0.707106781 二分之根号2
cos60=0.5
cos90=0
tan0=0
tan30=0.577350269 三分之根号3
tan45=1
tan60=1.732050808 根号3
tan90=无
cot0=无
cot30=1.732050808 根号3
cot45=1
cot60=0.577350269 三分之根号3
cot90=0
(2)0°~90°的任意角的三角函数值,查三角函数表。(见下)
(3)锐角三角函数值的变化情况
(i)锐角三角函数值都是正值
(ii)当角度在0°~90°间变化时,
正弦值随着角度的增大(或减小)而增大(或减小)
余弦值随着角度的增大(或减小)而减小(或增大)
正切值随着角度的增大(或减小)而增大(或减小)
余切值随着角度的增大(或减小)而减小(或增大)
(iii)当角度在0°≤α≤90°间变化时,
0≤sinα≤1, 1≥cosα≥0,
当角度在0°<α<90°间变化时,
tanα>0, cotα>0.
“锐角三角函数”属于三角学,是《数学课程标准》中“空间与图形”领域的重要内容。从《数学课程标准》看,中学数学把三角学内容分成两个部分,第一部分放在义务教育第三学段,第二部分放在高中阶段。在义务教育第三学段,主要研究锐角三角函数和解直角三角形的内容,本套教科书安排了一章的内容,就是本章“锐角三角函数”。在高中阶段的三角内容是三角学的主体部分,包括解斜三角形、三角函数、反三角函数和简单的三角方程。无论是从内容上看,还是从思考问题的方法上看,前一部分都是后一部分的重要基础,掌握锐角三角函数的概念和解直角三角形的方法,是学习三角函数和解斜三角形的重要准备。
附:三角函数值表
sin0=0,
sin15=(√6-√2)/4 ,
sin30=1/2,
sin45=√2/2,
sin60=√3/2,
sin75=(√6+√2)/2 ,
sin90=1,
sin105=√2/2*(√3/2+1/2)
sin120=√3/2
sin135=√2/2
sin150=1/2
sin165=(√6-√2)/4
sin180=0
sin270=-1
sin360=0
sin1=0.01745240643728351 sin2=0.03489949670250097 sin3=0.05233595624294383
sin4=0.0697564737441253 sin5=0.08715574274765816 sin6=0.10452846326765346
sin7=0.12186934340514747 sin8=0.13917310096006544 sin9=0.15643446504023087
sin10=0.17364817766693033 sin11=0.1908089953765448 sin12=0.20791169081775931
sin13=0.22495105434386497 sin14=0.24192189559966773 sin15=0.25881904510252074
sin16=0.27563735581699916 sin17=0.2923717047227367 sin18=0.3090169943749474
sin19=0.3255681544571567 sin20=0.3420201433256687 sin21=0.35836794954530027
sin22=0.374606593415912 sin23=0.3907311284892737 sin24=0.40673664307580015
sin25=0.42261826174069944 sin26=0.4383711467890774 sin27=0.45399049973954675
sin28=0.4694715627858908 sin29=0.48480962024633706 sin30=0.49999999999999994
sin31=0.5150380749100542 sin32=0.5299192642332049 sin33=0.544639035015027
sin34=0.5591929034707468 sin35=0.573576436351046 sin36=0.5877852522924731
sin37=0.6018150231520483 sin38=0.6156614753256583 sin39=0.6293203910498375
sin40=0.6427876096865392 sin41=0.6560590289905073 sin42=0.6691306063588582
sin43=0.6819983600624985 sin44=0.6946583704589972 sin45=0.7071067811865475
sin46=0.7193398003386511 sin47=0.7313537016191705 sin48=0.7431448254773941
sin49=0.7547095802227719 sin50=0.766044443118978 sin51=0.7771459614569708
sin52=0.7880107536067219 sin53=0.7986355100472928 sin54=0.8090169943749474
sin55=0.8191520442889918 sin56=0.8290375725550417 sin57=0.8386705679454239
sin58=0.848048096156426 sin59=0.8571673007021122 sin60=0.8660254037844386
sin61=0.8746197071393957 sin62=0.8829475928589269 sin63=0.8910065241883678
sin64=0.898794046299167 sin65=0.9063077870366499 sin66=0.9135454576426009
sin67=0.9205048534524404 sin68=0.9271838545667873 sin69=0.9335804264972017
sin70=0.9396926207859083 sin71=0.9455185755993167 sin72=0.9510565162951535
sin73=0.9563047559630354 sin74=0.9612616959383189 sin75=0.9659258262890683
sin76=0.9702957262759965 sin77=0.9743700647852352 sin78=0.9781476007338057
sin79=0.981627183447664 sin80=0.984807753012208 sin81=0.9876883405951378
sin82=0.9902680687415704 sin83=0.992546151641322 sin84=0.9945218953682733
sin85=0.9961946980917455 sin86=0.9975640502598242 sin87=0.9986295347545738
sin88=0.9993908270190958 sin89=0.9998476951563913
sin90=1
cos1=0.9998476951563913 cos2=0.9993908270190958 cos3=0.9986295347545738
cos4=0.9975640502598242 cos5=0.9961946980917455 cos6=0.9945218953682733
cos7=0.992546151641322 cos8=0.9902680687415704 cos9=0.9876883405951378
cos10=0.984807753012208 cos11=0.981627183447664 cos12=0.9781476007338057
cos13=0.9743700647852352 cos14=0.9702957262759965 cos15=0.9659258262890683
cos16=0.9612616959383189 cos17=0.9563047559630355 cos18=0.9510565162951535
cos19=0.9455185755993168 cos20=0.9396926207859084 cos21=0.9335804264972017查正切函数表。
cos22=0.9271838545667874 cos23=0.9205048534524404 cos24=0.9135454576426009
cos25=0.9063077870366499 cos26=0.898794046299167 cos27=0.8910065241883679
cos28=0.882947592858927 cos29=0.8746197071393957 cos30=0.8660254037844387
cos31=0.8571673007021123 cos32=0.848048096156426 cos33=0.838670567945424
cos34=0.8290375725550417 cos35=0.8191520442889918 cos36=0.8090169943749474
cos37=0.7986355100472928 cos38=0.7880107536067219 cos39=0.7771459614569709
cos40=0.766044443118978 cos41=0.754709580222772 cos42=0.7431448254773942
cos43=0.7313537016191705 cos44=0.7193398003386512 cos45=0.7071067811865476
cos46=0.6946583704589974 cos47=0.6819983600624985 cos48=0.6691306063588582
cos49=0.6560590289905074 cos50=0.6427876096865394 cos51=0.6293203910498375
cos52=0.6156614753256583 cos53=0.6018150231520484 cos54=0.5877852522924731
cos55=0.5735764363510462 cos56=0.5591929034707468 cos57=0.5446390350150272
cos58=0.5299192642332049 cos59=0.5150380749100544 cos60=0.5000000000000001
cos61=0.4848096202463371 cos62=0.46947156278589086 cos63=0.4539904997395468
cos64=0.43837114678907746 cos65=0.42261826174069944 cos66=0.4067366430758004
cos67=0.3907311284892737 cos68=0.3746065934159122 cos69=0.35836794954530015
cos70=0.3420201433256688 cos71=0.32556815445715675 cos72=0.30901699437494745
cos73=0.29237170472273677 cos74=0.27563735581699916 cos75=0.25881904510252074
cos76=0.24192189559966767 cos77=0.22495105434386514 cos78=0.20791169081775923
cos79=0.19080899537654491 cos80=0.17364817766693041 cos81=0.15643446504023092
cos82=0.13917310096006546 cos83=0.12186934340514749 cos84=0.10452846326765346
cos85=0.08715574274765836 cos86=0.06975647374412523 cos87=0.052335956242943966
cos88=0.03489949670250108 cos89=0.0174524064372836
cos90=0
tan1=0.017455064928217585 tan2=0.03492076949174773 tan3=0.052407779283041196
tan4=0.06992681194351041 tan5=0.08748866352592401 tan6=0.10510423526567646
tan7=0.1227845609029046 tan8=0.14054083470239145 tan9=0.15838444032453627
tan10=0.17632698070846497 tan11=0.19438030913771848 tan12=0.2125565616700221
tan13=0.2308681911255631 tan14=0.24932800284318068 tan15=0.2679491924311227
tan16=0.2867453857588079 tan17=0.30573068145866033 tan18=0.3249196962329063
tan19=0.34432761328966527 tan20=0.36397023426620234 tan21=0.3838640350354158
tan22=0.4040262258351568 tan23=0.4244748162096047 tan24=0.4452286853085361
tan25=0.4663076581549986 tan26=0.4877325885658614 tan27=0.5095254494944288
tan28=0.5317094316614788 tan29=0.554309051452769 tan30=0.5773502691896257
tan31=0.6008606190275604 tan32=0.6248693519093275 tan33=0.6494075931975104
tan34=0.6745085168424265 tan35=0.7002075382097097 tan36=0.7265425280053609
tan37=0.7535540501027942 tan38=0.7812856265067174 tan39=0.8097840331950072
tan40=0.8390996311772799 tan41=0.8692867378162267 tan42=0.9004040442978399
tan43=0.9325150861376618 tan44=0.9656887748070739 tan45=0.9999999999999999
tan46=1.0355303137905693 tan47=1.0723687100246826 tan48=1.1106125148291927
tan49=1.1503684072210092 tan50=1.19175359259421 tan51=1.234897156535051
tan52=1.2799416321930785 tan53=1.3270448216204098 tan54=1.3763819204711733
tan55=1.4281480067421144 tan56=1.4825609685127403 tan57=1.5398649638145827
tan58=1.6003345290410506 tan59=1.6642794823505173 tan60=1.7320508075688767
tan61=1.8040477552714235 tan62=1.8807264653463318 tan63=1.9626105055051503
tan64=2.050303841579296 tan65=2.1445069205095586 tan66=2.246036773904215
tan67=2.355852365823753 tan68=2.4750868534162946 tan69=2.6050890646938023
tan70=2.7474774194546216 tan71=2.904210877675822 tan72=3.0776835371752526
tan73=3.2708526184841404 tan74=3.4874144438409087 tan75=3.7320508075688776
tan76=4.0107809335358455 tan77=4.331475874284153 tan78=4.704630109478456
tan79=5.144554015970307 tan80=5.671281819617707 tan81=6.313751514675041
tan82=7.115369722384207 tan83=8.144346427974593 tan84=9.514364454222587
tan85=11.43005230276132 tan86=14.300666256711942 tan87=19.08113668772816
tan88=28.636253282915515 tan89=57.289961630759144
tan90=无取值
3.1.1 恒载
恒载:又称永久荷载,在结构使用期间内,荷载的大小不随时间的推移而变化、或其变化与其平均值相比较可以忽略不计、或其变化是单调的并能趋于限值的荷载。如结构自重、构造层重、土压力等。
结构自重和构造层重的标准值计算,可按照施工图纸的设计尺寸和材料的单位体积、或面积、或长度的重力,经计算直接确定;土压力标准值的计算详有关基础设计资料。
3.1.1.1 楼面恒荷载
楼面恒荷载主要由三部分组成:建
筑面层恒荷载、结构层恒荷载、顶棚恒
荷载,分布形式详图3.1.1所示。
(1)由建筑面层引起的楼面恒荷载
计算
建筑面层引起的楼面恒荷载计算,
必须根据建筑楼面面层的具体做法
确定,常用建筑楼面面层恒荷载取值可 图3.1.1 楼面恒荷载组成示意图
参考表3.1.1。
(2)由结构层引起的楼面恒荷载计
算
结构层引起的楼面恒荷载 = 结构楼层楼板厚度×钢筋混凝土容重(一般取25kN/m) 程序计算时,只要输入结构楼层楼板厚度和混凝土容重,结构层恒荷载即会自行导算,详4.1所述。
表3.1.1 常用建筑楼面面层恒荷载取值参考表
3