what are static RPM ?
The "bell curve" of anything, with the peak of the curve supposedly at a score of 100.
A bell curve is a graph that depicts a large rounded peak tapering away at each end of normal distribution. A bell curve is a mathematical concept with the curve concentrated in the center.
Static Evaluation is the Evaluationn between atoms and stress
The standard normal curve is symmetrical.
Yes, if you want to curve the ball before it hits the pins.
Static equilibrium in economics refers to a situation where the demand for a product equals its supply in a given market at a particular point in time, resulting in no incentive for price changes. Graphically, static equilibrium is shown at the point where the demand curve intersects the supply curve, indicating a stable market price and quantity.
To convert volumetric flow rate in cubic meters per hour (cmh) to static pressure in Pascals (Pa), you will need to know the characteristics of the fan or blower generating the flow. You'll need to refer to the fan curve provided by the manufacturer, which shows the relationship between the volumetric flow rate and the static pressure. By interpolating on the fan curve, you can determine the static pressure corresponding to the given flow rate in cmh.
The maximum speed at which a car can safely negotiate a frictionless banked curve does not depend on the mass of the car. It depends on the angle of the bank, the radius of the curve, and the coefficient of static friction between the tires and the road surface.
a System curve is used in hydrolic anylyses to dtermine the duty point of a pump for a certain pipe line. The pump curve and system curve are plotted on the same graph and where the two cross each other is the duty point, the curve is a Head(meters) vs Flow(m3/hour). The system curve Head = static head + head loss due to friction in pipe + secondary head loss *This is calculated for a certain flow to determine the Head so it can be plotted on the curve
A perfectly inelastic supply relation would be defined as one where the quantity produced remains static under any price change. If we'd plot this curve in the familiar demand-supply framework with price being on the y-axis and quantity on the x-axis, the curve would be vertical.
The frictional force between the road and the tires is responsible for keeping a car in an unbanked curve. This force provides the necessary centripetal force to keep the car moving in a curved path without sliding off the road.
To minimize tire wear, the static friction force between the tires and the road should be maximized. This can be achieved by increasing the angle of banking of the curve. The banked angle should be adjusted so that the centripetal force required to keep the car moving in a circle is provided mostly by the static friction force rather than the normal force.
The dynamic resistance of a diode, be it zener or otherwise, will be different from its static resistance because a diode is not a resistor, and resistance is not a function of current flow. It is a diode, and a diode has its own characteristic voltage to current curve, forward and, in the case of a zener, reverse.
To prevent skidding at 90 km/h, the car would need a coefficient of static friction of at least 0.25. This value can be calculated using the formula: coefficient of friction = tan(theta), where theta is the angle of banking. Given the curve radius, speed, and the formula, we can determine the necessary value for the coefficient of friction.
The maximum speed a car can take in a 20m radius curve is determined by the centripetal force required to keep the car on the curve. Using the formula Fc = mv^2/r, the maximum speed can be calculated to be approximately 22.58 m/s, or about 81.29 km/h.
Static Pressure ...In architecture and construction, static pressure refers to a structure's ventilation system, and the way in which the system's components and ductwork resist airflow. It is important to know what this static pressure is, because the fan that circulates air through the system must be able to do so effectively. It must be strong enough to overcome the resistance exerted by the ventilation system, and to push air through it. In general, the larger and more complicated a ventilation system is, the higher its static pressure.