Find derivative: r = \sec \sqrt{\theta} \tan \left (\frac{1}{\theta} \right) find the derivative of y(x) if x \tan y + y^{2} = \frac{x}{y} please show all work! Find the derivative of u(x) = \tan x using the quotient rule. ...
The derivative of f(X) = x cos x + tan x is Ax sin x + cos x - x2 Bx sin x + cos x + sec2x C−x sin x + cos x + sec x D−x sin x + cos x + sec2xSubmit The derivative of f(x)=xtan−1x with respect to g(x)=sec−1(12x2−1) is A12√1−xx...
Let y =tan x^@ We know that 180^@=pi ^c rArr x^@-((pi x)/(180))^c Now y=tanx^@=tan((pi x)/(180)) rArr (dy)/(dx)=d/(dx) tan ((pi x)/180) =sec^2((pix)/180).d/dx((pix)/180) (pi)/180.sec^2((pix)/(180)).
Find the derivative of y=20\tan x \sec x . Differentiate: g(x) = \tan x \sec x Differentiate: f(t) = cos 5t sec 5t. Differentiate y = 6 \sec (5x). Find the derivative of the function, f(x)=e^{3x} \sec (7x.) Find the derivative of the function. h\left( x \right) ...
Then, use the Quotient Rule, which finds the derivative of a quotient with both a differentiable numerator and denominator, like in sin(x) / cos(x). Lastly, the result from the quotient rule can be written more cleanly by using the identity that 1 / cos(x) = sec(x). Is tan(x) ...
The derivative of sec^2x is equal to 2 sec^2x tanx. It is mathematically written as d(sec^2x)/dx = 2 sec2x tanx.
百度试题 结果1 题目Find the derivative of x tan x and hence determine ∫ limits_(^(x\ (sec)^2\ x\ . 相关知识点: 试题来源: 解析 x tan x+ ln cos x +c 反馈 收藏
Find the derivative of the function y = \ln (\sec^2 x) Find the derivative: f(x) = sec^2 x sec x^2. Find the derivative and simplify: f(x) = (sin x)/(tan^2 x - sec^2 x). Find the derivative of the given function: f(x) = \sec^2 (x^3 + x)^2 ...
cos x = 1/sec x sec x = 1/cos x d(sec x)/dx = sec x tan x tan x = sin x/ cos xUsing the above given trigonometric formulas, we can write the derivative of cos x and the derivative of 1/sec x, that is, d(cos x)/dx = d(1/sec x)/dx, and apply the quotient rule...
loga(x) 1 / (x ln(a)) Trigonometry (x is in radians) sin(x) cos(x) cos(x) −sin(x) tan(x) sec2(x) Inverse Trigonometry sin-1(x) 1/√(1−x2) cos-1(x) −1/√(1−x2) tan-1(x) 1/(1+x2) RulesFunction Derivative Multiplication by constant cf cf’ Power Rul...