Questions

Can you differentiate both sides of an equation?

Can you differentiate both sides of an equation?

You can differentiate both sides in case of identity, i.e. when both sides are equal for all values of x. You can also differentiate both sides if it’s valid for all x in an interval.

Why we differentiate any equation?

Differentiation allows us to find rates of change. For example, it allows us to find the rate of change of velocity with respect to time (which is acceleration). It also allows us to find the rate of change of x with respect to y, which on a graph of y against x is the gradient of the curve.

Can you take derivative of inequalities?

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Note you can never differentiate with an inequality. Instead, the general idea for checking inequalities with differentiation is that we take h(x)=f(x)−g(x) and then try the derivative test to see whether function is increasing or decreasing.

How do you know if a derivative is correct?

Pick a number of points on x-axis and check them like that. Take into account that the approximation error needs to be compared to the value of your derivative at that point. For any specific derivative, you can ask a computer to check your result, as several other answers suggest.

What is degree ordinary differential equation?

The degree of an ordinary differential equation is the highest power of highest order derivative involve in the differential equation, provided the dependent variable and its derivatives should be free from radicals (if any).

Why do you differentiate twice?

The second derivative can be used as an easier way of determining the nature of stationary points (whether they are maximum points, minimum points or points of inflection). A stationary point on a curve occurs when dy/dx = 0.

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What is dy dx = 1 2y?

Derivative: 2y dy dx = 1 Simplify: dy dx = 1 2y Because y = √x: dy dx = 1 2√x Note: this is the same answer we get using the Power Rule:

How do you differentiate with respect to X?

Differentiate with respect to x: d dx (x 2) + d dx (y 2) = d dx (r 2) Let’s solve each term: Use the Power Rule: d dx (x2) = 2x

How to calculate y as a function of X?

Explicit: “y = some function of x”. When we know x we can calculate y directly. Implicit: “some function of y and x equals something else”. Knowing x does not lead directly to y. as a function of x. expressed in terms of both y and x. d dx (x 2) + d dx (y 2) = d dx (r 2) Let’s look more closely at how d dx (y2) becomes 2y dy dx

How do you find the derivative of X with respect to R2?

Differentiate with respect to x: d dx (x 2) + d dx (y 2) = d dx (r 2) Let’s solve each term: Use the Power Rule: d dx (x2) = 2x. Use the Chain Rule (explained below): d dx (y2) = 2y dy dx. r 2 is a constant, so its derivative is 0: d dx (r2) = 0. Which gives us: 2x + 2y dy dx = 0. Collect all the dy dx on one side.