Inductive reactance (X_L) is calculated using the formula (X_L = 2\pi f L), where (f) is the frequency in hertz and (L) is the inductance in henries. For a 1H inductor at 1Hz, (X_L = 2\pi(1)(1) = 2\pi \approx 6.28 , \Omega). Therefore, the inductive reactance to 1Hz in a 1H inductor is approximately 6.28 ohms.
These terms apply to the coils inside a wattmeter. 'Pressure coil' is an archaic term for 'voltage coil', which is connected in parallel with the supply, while the 'current coil' is connected in series with the load.
A coil spring works by compressing and then expanding when a vehicle is going over pumps. Coil springs help make the ride a little smoother for most vehicles. The coils spring is attached to the undercarriage.
to make it go faster the wheel support path will help it and the propulsuion coil will help it
A 'pressure coil' is an archaic term for a 'voltage coil' (UK terminology) or 'potential coil' (US terminology), as opposed to the 'current coil' in a wattmeter. This coil is connected in parallel with the supply, while the current coil is connected in series with the load.
Between 1h and 1h 20m
aziz
1h = 3600s 25200s x 1h/3600s = 7h
The word coil already is a noun, as in "a coil of rope."
1h = 60min 477min x 1h/60min = 7.95h = 7h 57min
1h = 3600s 25200s x 1h/3600s = 7h
1h = 60min 4000min x 1h/60min = 666.66667h = approx. 666h and 40min
At 12:02
1h = 60min 1290min x 1h/60min = 21.5h
kindhearted
1h = 60 min so 1h and 20 min = 60 + 20 = 80 min
1h = 3600s 1km/h x 1h/3600s = 0.00027778km/s