If0<θ<π,then minimum value of3sinθ+cosec3θis View Solution If range ofsin2θ+cos4θis[k1,k2],then the minimum value ofcos2θ+4cosθ+4is View Solution Find the maximum and minimum values of3sinθ+4cosθ−9 View Solution ...
Find the minimum value of2cosθ+1sinθ+√2tanθ∈(0,π2). Find the maximum and minimum values of7cosθ+24sinθ View Solution iftanθ=43, then the value of3sinθ+2cosθ3sinθ−2cosθis View Solution If5tanθ−4=0, then the value of5sinθ−4cosθ5sinθ+4cosθis ...
(1) Find the minimum and maximum values of the function f(x) = 10 \sin (x) \cos (x) + 9 on the interval [0, pi/2]. (2) Find the maximum and minimum values of the function y = 4 cos(theta) + 7 sin(thet Consider the following f(x) = 4\: sin(x) + 3\: cos(x)...
Find the value of x of the relative minimum of f. Find the value(s) of b such that the function f(x) = x^2 + bx + 26 has the minimum value of 10. Find the value(s) of b such that the function f(x) = x^2 + bx - 25 has the minimum value of -50. ...
edn = K*sin(rho - theta_r) - 3*sin(rho) + sqrt(3)*cos(rho) edn = We can simplify that by a bit, though I'm not sure if it helps a lot. ThemeCopy simplify(edn) ans = So if we knew the value of K, that should tell us a great...
sin(3θ2)=0 sin(3θ2)=0sin(3θ2)=0 Take theinversesineof both sides of theequationto extractθθfrom inside thesine. 3θ2=arcsin(0)3θ2=arcsin(0) Simplify the right side. Tap for more steps... The exact value ofarcsin(0)is0. ...
Find the maximum and minimum values of the function g(\theta ) = 7 \theta - 8 \sin (\theta) on the interval (0,\frac{\pi}{2}) Minimum value = Maximum value = Find the absolute maximum and minimum values of f on the given interval: f(x) =...
Find the minimum value of f(x) = x^x on (0, \infty). (1)Find the minimum and maximum values of the function f(x) = 10\sin(x)\cos(x) + 7 on the interval \left [0,\frac{\pi}{2}\right ] (2)Find the maximum and minimum values of y = \theta + 2 \co...
The remaining three equations expressing the resultant of the in-plane components are $$\begin{aligned} f_{3_{x}}^{3} &= (f_{11_{x}} + f_{12_{x}})\cos \delta -(f_{11_{y}} + f_{12_{y}}) \sin \delta + f_{21_{x}} + f_{22_{x}}, \end{aligned}$$ (6)...
The length L of the DE membrane varies with the actual bending angle θ of the frame as follows:53 $$L = \frac{2C}{\theta }\sin \left( {\frac{\theta }{2}} \right).$$ (3) Substitute Eq. (3) into Eq. (2), the actual stretch state of the DE membrane can be rewritten ...