The loading rate represents the changing in applied force with time.
loading rate =dF/dt.
It is a generalterm used not only for AFM but also for Dynamic Force Spectroscopy(DFS).
loading rate = ksv
v= velocity, ks=spring constant.
Best wishes
BOD loading rate is the amount of organic matter added in water or waste water for example sewage water
Force is the rate of change of momentum (which is the product of mass and velocity) whereas power is the rate of work done (product of force and displacement) In fact, it can be shown that power = force x velocity
There is no force of acceleration. Acceleration is the rate at which velocity changes over time. A net force causes acceleration.
According to Newton's second law, the rate of change of momentum of an object is directly proportional to the net force that is acting on that object.
If you are asking the rate of acceleration on a surface, than the larger the force of gravity is, the more it will affect the rate of acceleration. The amount of friction depends one many variables, one of which is gravity. The larger your force of gravity is, the larger the force of friction is. Because of this, the more the force of gravity is, than the slower the rate of acceleration is because of the larger force of friction, which would be acting against the rate of acceleration. Therefore, the force of gravity does affect the rate of acceleration.
Organic loading rate equals gram COD/ liter /day
BOD loading rate is the amount of organic matter added in water or waste water for example sewage water
After the invention of the bow was the long bow. The long bow had the loading rate of a ordanary bow. It also had the power and force of a crossbow and a greater accuracy and shooting distance.
The maximum amperage draw or load that the device or wire can safely carry.
Which of the following describes the rate of force development as part of the force-time relationship?
Which of the following describes the rate of force development as part of the force-time relationship?
They had a lot higher rate of fire.
weight/vol/time
If you are asking the rate of acceleration on a surface, than the larger the force of gravity is, the more it will affect the rate of acceleration. The amount of friction depends one many variables, one of which is gravity. The larger your force of gravity is, the larger the force of friction is. Because of this, the more the force of gravity is, than the slower the rate of acceleration is because of the larger force of friction, which would be acting against the rate of acceleration. Therefore, the force of gravity does affect the rate of acceleration.
-- A car accelerates in the direction of the net force on it, at a rate equal to the magnitude of the net force divided by the mass of the car. -- A stone accelerates in the direction of the net force on it, at a rate equal to the magnitude of the net force divided by the mass of the stone. -- A Frisbee accelerates in the direction of the net force on it, at a rate equal to the magnitude of the net force divided by the mass of the Frisbee. -- A baseball accelerates in the direction of the net force on it, at a rate equal to the magnitude of the net force divided by the mass of the baseball. -- A dog accelerates in the direction of the net force on it, at a rate equal to the magnitude of the net force divided by the mass of the dog. -- A book accelerates in the direction of the net force on it, at a rate equal to the magnitude of the net force divided by the mass of the book. -- A canoe accelerates in the direction of the net force on it, at a rate equal to the magnitude of the net force divided by the mass of the canoe. -- An airplane accelerates in the direction of the net force on it, at a rate equal to the magnitude of the net force divided by the mass of the airplane. -- A planet accelerates in the direction of the net force on it, at a rate equal to the magnitude of the net force divided by the mass of the planet. -- A cow accelerates in the direction of the net force on it, at a rate equal to the magnitude of the net force divided by the mass of the cow.
Baud rate is defined as the number of bits transmitted per sec.
If you mean employment rate, then it is employment/labor force. the participation rate is the labor force/non-institutionalized population over 16, I believe. A participation rate generally implies that what the data is explaining is overall how many people are working out of an entire population. Labor force participation rate= (number of people in the labor force) divided by total adult population note adult population in the work force is considered to start at age 15 number of people in the work force is the sum of unemployed and employed adults