Feed Rate = No of Cutting teeth x RPM x Feed per tooth.
The main difference between a 15K RPM (Revolutions Per Minute) and a 7.2K RPM drive is the speed at which the disk spins. A 15K RPM drive spins at a faster rate than a 7.2K RPM drive, resulting in quicker data access and transfer speeds. However, a 15K RPM drive may generate more noise and heat compared to a 7.2K RPM drive.
Nothing. Quantum physics does not apply to physical things.
There is no direct relation between amplitude and period. The amplitude of a wave refers to the maximum displacement from equilibrium, while the period of a wave is the time it takes for one complete cycle to occur. They are independent properties of a wave.
The relationship between RPM and centrifugal force (g) depends on two inputs, distance from the central axis and speed. A chart called a nomogram is typically used to determine the g-force exerted at a specific RPM.
Both decibels (dB) and nepers (Np) are units for expressing the ratio between two quantities, such as power or intensity. The relation between them is that 1 neper is equal to approximately 8.6859 decibels. Decibels are more commonly used in practice due to their familiarity and convenience.
voltage depend on current and resistance r.p.m depend on no of pole
power = torque * rpm
"feed" is the incoming power in relation to residential wiring.
Horsepower is calculated from RPM and torque. The higher the RPM you can sustain an engines torque at, the higher the Horsepower. Horsepower and Torque are always the same amount at 5250 RPM with all but diesel powered engines. Also the more rotational mass you can spin at a higher rpm, the more energy it poseses.
no. no relation at all
Relationship between motor rpm and no of poles
difference between relation sehema and relation instance in dbms
feed mm/sec speed Rev/min RPM for cutting tool
The number of poles in an electric motor is inversely related to its speed, measured in revolutions per minute (RPM). Specifically, the synchronous speed (RPM) of a motor can be calculated using the formula: RPM = (120 × frequency) / number of poles. This means that as the number of poles increases, the RPM decreases for a given frequency, and vice versa. Thus, motors with more poles typically operate at lower speeds compared to those with fewer poles.
200rpm
relation between telsa and gauss
there is/ was no relation between them .