To find the flux of a coil, you need to integrate the function over the area of the coil. This involves calculating the total amount of the function passing through the coil's surface.
One word answer: integrate. The area under the acceleration curve, up to time T, is the speed at time T. If you now make a curve of the speed as a function of time, and find the area under that up to time T, that will be the position at time T.
The passive transport process, such as simple diffusion or facilitated diffusion, does not require an immediate source of energy to function. These processes rely on the natural movement of molecules from an area of higher concentration to an area of lower concentration.
Diffusion. This is the process by which particles move from an area of high concentration to an area of low concentration in order to achieve equilibrium.
Velocity is defined asv = dx/dtwhere:v is velocity;dx is displacement;and dt is elapsed time.Assuming velocity is constant, then displacement is calculated as:dx = v/dt.
To find the area under a graph, you can use calculus by integrating the function that represents the graph. This involves finding the definite integral of the function over the desired interval. The result of the integration will give you the area under the graph.
One word answer: integrate. The area under the acceleration curve, up to time T, is the speed at time T. If you now make a curve of the speed as a function of time, and find the area under that up to time T, that will be the position at time T.
the integration between the two country's went wrong.
You have to integrate. There is usually no easy shortcut, except for some very simple functions. When finding the area between to functions subtract the bottom function from the bottom function. Then integrate that from the starting to ending points. (If the functions switch which is on top and which is on the bottom over the interval you're integrating over, you'll have to split the problem into smaller problems around that point and add the areas together.)
The integral function of calculus is the method for determining the area under a curve. The limiting chord process is the "simple" math understanding required to learn the "complex" function of "integration". BTW: the derivative function is a "cousin" of the integral function which is used to determine the slope of curve at a given point.
Integrate between the bounds.
To prove the formula you need to integrate the function y = +sqrt(1 - x2) between the limits x = -1 and x = +1, and then double the result to allow for the area under the x-axis. Better still, use polar coordinates and double integrate rdrdA where r goes from 0 to R, the radius of the circle, and the angle A goes from 0 to 2*pi. The result can be VERIFIED by comparing the area and the radius but that is not proof.
Generally. Area = the definite integration from a to b [ f(x) - g(X)]dx Say you have two functions( y = e^x and y = x) and you want to find the area between them on an interval ( say 1 to 3 ) So you set the top function(e^x) subtracting the bottom function(x) and integrate them, Insert the values, b - a in the integrated functions and get the value of the area.
-- differentiate -- derivative -- integrate -- integral -- chain rule -- implicit function -- arbitrary constant -- limit -- l'Hospital -- Newton -- rate of change -- area under the curve -- infinitesimal -- range -- domain -- delta -- epsilon -- ureter
Osmosis is the movement of water molecules across a semi-permeable membrane from an area of lower solute concentration to an area of higher solute concentration, in order to equalize the solute concentrations on both sides of the membrane. This process helps maintain the balance of water and solutes in cells and tissues, allowing them to function properly.
The passive transport process, such as simple diffusion or facilitated diffusion, does not require an immediate source of energy to function. These processes rely on the natural movement of molecules from an area of higher concentration to an area of lower concentration.
The function of a hard drive is to store large amounts of digital information. Another function is to hold the operating system in the computer in order to access computer programs.
The inner folds of a mitochondria are called the cristae. The cristae is folded in order to maximize the space within the mitochondria in order to increase surface area. By doing so, aerobic respiration requires less ATP to function, and thus, makes the process more efficient