They are at x = -3 and x = -2.
Your question is insufficiently precise, but I'll try to answer anyway. "Sine squared theta" usually means "the value of the sine of theta, quantity squared". "Sine theta squared" usually means "the value of the sine of the quantity theta*theta". The two are not at all the same.
This expression factors as x -1 quantity squared.
In such cases, there is usually a discontinuity when the denominator is zero. In other words, solve for:x + 2 = 0
Look for points where the denominator is equal to zero. In other words, solve the equation: denominator = 0
The standard form of the quadratic function in (x - b)2 + c, has a vertex of (b, c). Thus, b is the units shifted to the right of the y-axis, and c is the units shifted above the x-axis.
y = cot x cos2x - 2 cot x
A sequence of U shapes with minimum values of 1 and vertical asymptotes. The minimum values are attained at 90+180*k degrees The asysmptotes are at 180*k degrees where k is any integer
X squared is not an inverse function; it is a quadratic function.
Your question is insufficiently precise, but I'll try to answer anyway. "Sine squared theta" usually means "the value of the sine of theta, quantity squared". "Sine theta squared" usually means "the value of the sine of the quantity theta*theta". The two are not at all the same.
∫ f'(x)/[f(x)√(f(x)2 - a2)] dx = (1/a)arcses(f(x)/a) + C C is the constant of integration.
The Distance Formula! D = square root of (y2-y1) quantity squared + (x2-x1) quantity squared
It is x - y + 2 = 0
This expression factors as x -1 quantity squared.
squared 3
∫ f'(x)/(p2 + q2f(x)2) dx = [1/(pq)]arctan(qf(x)/p)
a quantity multiplied by itself
one quantity varies directly as the square of the other quantity. in symbols, y = kx squared