1、 第第 2 讲讲 三角恒等变换三角恒等变换 高考预测一:三角恒等变换之拆凑角问题高考预测一:三角恒等变换之拆凑角问题 1已知,为锐角,4tan3,5cos()5 (1)求cos2的值; (2)求tan()的值 2已知角的顶点与原点O重合,始边与x轴的非负半轴重合终边过点34(,)55P (1)求cos2的值; (2)已知为锐角,5cos()5,当求tan()的值 3已知,为锐角,4tan3,5cos()5 (1)求sin2的值; (2)求tan的值 4已知函数( )sin()(0f xx ,0) 剟为偶函数,周期为2 (1)求( )f x的解析式; (2)若1(,),()3 233af a ,
2、求2sin(2)3a的值 5已知函数( )sin()(0f xx ,|)2的图象上两个相邻的最高点之间的距离为2且直线6x是函数( )f x图象的一条对称轴 (1)求( )f x的解析式; (2)若满足( )3 ()3ff,求tan2 6 (1)已知tan22,计算6sincos3sin2cos的值; (2)设3335(,),(0,),cos(),sin()44445413,求sin()的值 7已知34312,0,cos(),sin()44445413 (1)求sin()的值; (2)求cos()的值 8已知3cos()45,512sin()413 ,3(,)44,(0,)4,求sin()的值
3、 已知344,04,3cos()45,35sin()413,求sin()的值 第第 2 讲讲 三角恒等变换三角恒等变换 高考预测一:三角恒等变换之拆凑角问题高考预测一:三角恒等变换之拆凑角问题 1已知,为锐角,4tan3,5cos()5 (1)求cos2的值; (2)求tan()的值 【解析】解: (1)由4tan3, 得2222222241( )173cos241251( )3cossintancossintan ; (2)由,为锐角,得(0, ),2(0, ), 又5cos()5 ,2 5sin()5, 由7cos225 ,得24sin225 则sin()sin()2 sin()cos2c
4、os()sin2 2 575242 5()()52552525 Q,为锐角,(2 ,)2, 则2605cos()1()25sin sin()2tan()cos()11 2已知角的顶点与原点O重合,始边与x轴的非负半轴重合终边过点34(,)55P (1)求cos2的值; (2)已知为锐角,5cos()5,当求tan()的值 【解析】解: (1)由三角函数的定义知,4sin5 ,3cos5 , 所以2222347cos2cossin()()5525 ; (2)由(1)知,4324sin22sincos2()()5525 , 所以24sin22425tan27cos2725 ; 因为3222kk,k
5、Z; 又因为5cos()05, 所以32222kk,kZ; 所以22 5sin()1sin ()5 , 所以tan()2 ; 所以tan()tan2() tan2tan()1tan2tan()g 24( 2)7241()( 2)7 211 3已知,为锐角,4tan3,5cos()5 (1)求sin2的值; (2)求tan的值 【解析】解: (1)已知,为锐角,45tan,cos()35 因为为锐角, 所以:4sin5,3cos5, 所以24sin22sincos25 (2)因为,为锐角,5cos()5 , 所以2 5sin()5, tan()2 , 因为tantantan()1tantan,且
6、4tan3, 所以tan2 4已知函数( )sin()(0f xx ,0) 剟为偶函数,周期为2 (1)求( )f x的解析式; (2)若1(,),()3 233af a ,求2sin(2)3a的值 【解析】解: (1)由题意可得22,解得1,故函数( )sin()f xx 再由此函数为偶函数,可得2k,kz,结合0 剟可得2,故( )cosf xx (2)Q1(,),()3 233af a ,1cos()33 根据5(0,)36,2 2sin()33 22 214 2sin(2)2sin()cos()2333339a 5已知函数( )sin()(0f xx ,|)2的图象上两个相邻的最高点之
7、间的距离为2且直线6x是函数( )f x图象的一条对称轴 (1)求( )f x的解析式; (2)若满足( )3 ()3ff,求tan2 【解析】解: (1)Q函数( )sin()(0f xx ,|)2的图象上相邻两个最高点的距离为2, 函数的周期2T, 22,解得1, ( )sin()f xx, 又Q函数( )f x的图象关于直线6x对称, 62k,kZ, |2Q, 3, ( )sin()3f xx (2)( )3 ()3ffQ, 2sin()3sin()33,展开可得1313sincos3(sincos )2222a, 化简可得2sin3cos, 若cos0,则sin0,与22sincos0
8、矛盾,即cos0, 3tan2, 22tan3tan24 3114tan 6 (1)已知tan22,计算6sincos3sin2cos的值; (2)设3335(,),(0,),cos(),sin()44445413,求sin()的值 【解析】解: (1)tan22, 则:22tan42tan1tan3 , 所以:6sincos6tan173sin2cos3tan26; (2)由于:3(,),(0,)444, 则:024,044, 由于335cos(),sin()45413, 所以:4312sin(),sin()45413 , 所以:sin()cos()()44, cos()cos()sin()
9、sin()4444, 5665 7已知34312,0,cos(),sin()44445413 (1)求sin()的值; (2)求cos()的值 【解析】解: (1)Q已知34312,0,cos(),sin()44445413 , 4为钝角,23sin()1cos ()445; 33(44,),2335cos()1sin ()4413 3sin()sin()sin()()44 33354 1263sin()cos()cos()sin()()()44445135 1365 gg (2)3cos()cos()sin ()()44 3sin()43cos()cos()441245 333sin()()
10、413513 565 gg 8已知3cos()45,512sin()413 ,3(,)44,(0,)4,求sin()的值 已知344,04,3cos()45,35sin()413,求sin()的值 【解析】解: (1)Q3()()442, 3sin()cos()cos()()244 33cos()cos()sin()sin()4444 Q344344 024, 043344 2234sin()1cos ()1( )4455 , 2233512cos()1sin ()1()441313 , 则1235456sin()()13513565 ; (2)由(1)知1235456sin()()13513565
