如图所示,正六面体边长为a,[img=54x22]1803b20e19c9709.png[/img],[img=79x27]1803b20e222d9a4.png[/img]则[img=18x22]1803b20e2a0b2e7.png[/img]、[img=18x22]1803b20e32270c7.png[/img]对z轴的矩为( )[img=509x547]1803b20e3d4da79.png[/img]
A: Mz(F1)= -Fa, Mz(F2)=0
B: Mz(F1)=0, Mz(F2)=Fa
C: Mz(F1)=Fa, Mz(F2)=Fa
D: Mz(F1)=Fa, Mz(F2)=0
A: Mz(F1)= -Fa, Mz(F2)=0
B: Mz(F1)=0, Mz(F2)=Fa
C: Mz(F1)=Fa, Mz(F2)=Fa
D: Mz(F1)=Fa, Mz(F2)=0
举一反三
- 如图所示,在边长为a的正六面体的棱边CD上,作用着与其重合的力F,则力F对x、y、z轴的矩为[img=351x334]17de8f8200fff66.png[/img] A: Mx(F)= -Fa, My(F)=Fa, Mz(F)=0 B: Mx(F)=0 My(F)=0 Mz(F)=Fa C: Mx(F)=Fa My(F)= -Fa Mz(F)=0 D: Mx(F)=0 My(F)=0 Mz(F)=0
- 力F作用在OABC平面内,x轴与OABC平面成q 角(q = 90°),如图,则力F对三轴之矩为( )。[img=169x144]17e0ae97851da76.jpg[/img] A: Mx = 0,My = 0,Mz≠0; B: Mx = 0,My≠0,Mz = 0; C: Mx≠0,My = 0,Mz = 0; D: Mx≠0,My = 0,Mz≠0。
- 图示力F的作用线在OABC平面内,此力对各坐标轴之矩为()。[img=566x480]17e0ba674f72d05.png[/img] A: Mx(F)≠0,My(F)≠0,Mz(F)≠0 B: Mx(F)≠0,My(F)≠0,Mz(F)=0 C: Mx(F)≠0,My(F)=0,Mz(F)=0 D: Mx(F)=0,My(F)=0,Mz(F)=0
- 设f1(x)和f2(x)为二阶常系数线性齐次微分方程y″+py′+q=0的两个特解,若由f1(x)和f2(x)能构成该方程的通解,下列哪个方程是其充分条件?() A: f1(x)f′2(x)-f2(x)f′1(x)=0 B: f1(x)f′2(x)-f2(x)f′1(x)≠0 C: f1(x)f′2(x)+f2(x)f′1(x)=0 D: f1(x)f′2(x)+f2(x)f′1(x)≠0
- 设f1(x)和f2(x)为二阶常系数线性齐次微分方程y''+py'+q=0的两个特解, 若由f1(x)和f2(x)能构成该方程的通解,下列哪个方程是其充分条件?() A: f1(x)*f'2(x)-f'1(x)*f2(x)=0 B: f1(x)*f'2(x)-f'1(x)*f2(x)≠0 C: f1(x)*f'2(x)+f'1(x)*f2(x)=0 D: f1(x)*f'2(x)+f'1(x)*f2(x)≠0