The rate at which a chemical process occurs is usually best described as a differential equation.
principle used in increasing velocity ratio of diffrential and wheel
A differential equation have a solution. It is continuous in the given region, but the solution of the impulsive differential equations have piecewise continuous. The impulsive differential system have first order discontinuity. This type of problems have more applications in day today life. Impulses are arise more natural in evolution system.
In its normal form, you do not solve differential equation for x, but for a function of x, usually denoted by y = f(x).
Many real world problems can be represented by first order differential equation. Some applications of differential equation are radio-active decay and carbon dating, population growth and decay, warming/cooling law and draining a tank.
Differential centrifugation: The solution (eg sucrose) is uniform throughout the test tube. You separate organelles based on their size and density.Density gradient centrifugation: There is a gradient of concentration of solution throughout the test tube. The concentration of sucrose is minimal at the top of the tube and maximal at the bottom of the tube. This type of centrifugation separates organelles by density only.
One method to separate viruses from blood cells is differential centrifugation. By spinning a sample at high speeds, the heavier blood cells will pellet to the bottom while the lighter viruses will collect in the supernatant. This can be repeated with varying speeds and times to further purify the virus. Another method is density gradient centrifugation where the sample is layered on top of a density gradient solution, allowing the virus and blood cells to separate based on their buoyant densities.
Centrifugation is the process of separating two immiscible liquids. The fluid which is above the sediment after centrifugation, is called the supernatant.
Centrifugation can separate bacterial cells from their growth media by spinning them at high speed, causing them to collect at the bottom of the tube. However, centrifugation alone may not necessarily kill the bacterial cells. To kill the bacterial cells, additional steps such as using bactericidal agents, heat treatment, or freezing can be applied after centrifugation.
Centrifugation
A differential equation is a measure of change. If differencing with respect to time, it is the rate of change. Location, when differentiated, gives velocity. Velocity, when differentiated, gives acceleration. There are significant applications across all aspects of science.
Centrifugation
Centrifugation
cream from milk
supernatent and pellets
maybe
Filtration or centrifugation