Answer to: Find the derivative of h(theta) = sin theta/sin theta + cos theta. By signing up, you'll get thousands of step-by-step solutions to your...
Answer to: Find the derivative of F(x) if F(x) = integral from sqrt(x) to x of (cos theta)/(theta) d(theta). By signing up, you'll get thousands of...
What is the derivative of x \ sin(\frac {1}{x}) What is the derivative of 3 \ cot(n)(\theta) What is the derivative of f(x)=-4e^{(2x)^{6? What is the derivative of 9ln(x)? What is the derivative of y= xcos(x)sin(x) ? What is the derivative of 1/cos(x)? What...
Find the first derivative of f(x) = (ln x)/(e^x + sin x). Find the first derivative of the function: sin -1 (x2 + 2x + 3) Find the derivative of y = (1 + \cos^2(x))^6. Find the first and second derivatives of F(t) ...
MHB N27.09 Derivative of tan and phase shift Find the function with the given derivative whose graph passes through point P. $$r'\left(\theta\right) =6+\sec^2 \left({\theta}\right), P\left(\frac{\pi}{4},0\right)$$ 6+sec^2(x) The phase shift appears to be 1 but not sur...
(1.1) with\theta =0. There exists the blow-up solutions for the system of nonlinear Schrödinger equations. Ozawa and Sunagawa [22] gave the examples of the derivative nonlinearity which causes the small data blow-up for a system of Schrödinger equations. There are also some known results...
Abstract In this paper, we obtain analogues of Jacobi’s derivative formula in terms of the theta constants with rational characteristics. For this purpose, we use the arithmetic formulas of the number of representations of a natural number n, (n = 1, 2, . . .) as the sum of two squar...
syms nu theta j t k_vv k_wv=sin(Wtau_p.*nu.*pi./2).*(sin(nu.*pi./(2.*m))./(q.*sin(nu.*pi./(2.*m.*q))); F_rdModHiVarUd1=4./pi.*symsum(sin((2*j+1).*a_p.*pi./2)./(2*j+1).*cos((2*j+1).*(theta-Omega.*t)),j,0,J); F_rdModHiVarUd2=4...
Homework Statement Find the divergence of the function ##\vec{v} = (rcos\theta)\hat{r}+(rsin\theta)\hat{\theta}+(rsin\theta cos\phi)\hat{\phi}## Homework Equations ##\nabla\cdot\vec{v}=\frac{1}{r^2}\frac{\partial}{\partial r}(r^2v_r)+\frac{1}{r sin\theta}\frac{\...
2. {eq}h ( \theta ) = \operatorname { sin } \theta \operatorname { cos } \theta {/eq} 3. {eq}\displaystyle f ( x ) = \frac { \operatorname { cos } x } { 1 - \operatorname { sin } x ...