well this is not impossible, it is generally calculated by manufacturere so it is also called machine constant,it cant be calculated just by looking at machine, u have to know number of teeth/ starts of worm/ of every gear, beveal, worm etc in machine
to calculate exact ratio,
other method is hit n trial method ,
u cut spur gear,
then cut different gear of different helix angle and of different modules/dp,
may be can get close to machine constant
To calculate the pressure differential between two points, you subtract the pressure at one point from the pressure at the other point. This difference in pressure is the pressure differential.
To calculate differential pressure in a system, subtract the lower pressure from the higher pressure. This difference indicates the pressure change across the system.
A number with a power is still a number - a fixed constant. The differential of a constant is always 0.
The solution to a differential equation requires integration. With any integration, there is a constant of integration. This constant can only be found by using additional conditions: initial or boundary.
Viktor Pavlovich Palamodov has written: 'Linear differential operators with constant coefficients [by] V.P. Palamodov' -- subject(s): Differential equations, Partial, Differential operators, Partial Differential equations
Pressure Differential Valve- maintains a constant Differential pressure across it. Say if P1 was inlet pressure and P2 was outlet pressure PDV will try to keep constant DP. Say if P2 increases due to some reason and P1 is constant the DP will decrease and will decrease flow through the PDV. At this point to maintain the constant DP PDV will open and allow more flow through to keep the flow constant and thus DP constant.
YES
Not a constant, but the differential, i.e. gradient, of the equation. It = 0 at maxima and minima, where the curve is at its turning-point(s).
The first person to calculate the mathematical constant pi was the ancient Greek mathematician Archimedes.
There must be a constant and there must be a consistent price differential for that constant. IE, by age, sex, religion, ethnicity, etc.
To calculate the orifice plate differential pressure, you can use the Bernoulli's equation or the ISO 5167 standard equation. Measure the pressure upstream and downstream of the orifice plate using pressure gauges, then find the difference between these two pressures to determine the differential pressure across the orifice plate.
To calculate the equilibrium constant with temperature, you can use the Van 't Hoff equation, which relates the equilibrium constant to temperature changes. The equation is: ln(K2/K1) -H/R (1/T2 - 1/T1), where K is the equilibrium constant, H is the enthalpy change, R is the gas constant, and T is the temperature in Kelvin. By rearranging the equation and plugging in the known values, you can calculate the equilibrium constant at a specific temperature.