If you're looking for the amount of time between one shot and the next, divide 60 by the RPM. For example, an AK-47 has a RPM of 600. You would do: 60 divided by 600. (Which equals 0.1)
If you're looking for how many bullets are fired in one second, then do the other way around: 600 divided by 60.
you can convert it like this, if a gun has a 550 rpm instead of doing 550 รท 6000 you will add 2x the amount of rpm its away from 600 rpm which equals to 650 then you divide it by 6000 which equals to roughly 0.1083 (you cant divide 650 by 6000 so it gives like 0.1083333333 on the calculator if you try)
the result you got is the cooldown it has between each shots,
and if it has more rpm than 600 all you do is decrase it 2x by the difference of the rpm like an example: if the gun has 800rpm-600 = 200, 200x2 = 400, 400 รท 6000 which is roughly like around 0.066, it works every time
To convert liters per minute to milliliters per minute Multiply Liters by 1000 To convert now Milliliters per minute to Milliliters per second divide by 60 Thus if we have V liters per minute, that would translate to (1000 x V)/60 milliliters per second. So the conversion factor is 1000/60 or 100/6 or 50/3
To convert metres per second into metres per minute - multiply the value for the metres by 60. So that 18 metres per second would become 18 x 60 = 1,080 metres per minute.
If that's 26.71875 minutes, it rounds to 27 minutes.
To convert meters per minute to centimeters per second, divide by 60 since there are 60 seconds in a minute. So, an ant crawling at 12 meters per minute would be moving at 20 centimeters per second (12 meters/minute * 100 centimeters/meter / 60 seconds/minute).
This question has no answer because you cannot convert meters to inches per minute.However,If the question were, "How can you convert 4.5 meters per second to inches per minute", then the process to arrive at this answer would be:4.5 * meters/second * inches/meter * seconds/minuteOne inch is the same as 2.54cm; so, we can use this fact to determine how many inches are in a meter.100cm/(2.54cm/inch) ~ 39.3701 inchesThere are 60 seconds in a minute.We now have all of the numbers we need ...The number we get is 4.5 * 39.3701 * 60 ~ 10629.93The unit we get ismeters/second * inches/meter * seconds/minute(simplify meters) -> 1/second * inches/1 * seconds/minute(simplify seconds) -> 1/1 * inches/1 * 1/minute(simplify numbers) -> inches/1 * 1/minute(simplify expression) -> inches/minuteThe full answer would then be ~10629.93 inches/minute
A pulse is typically counted per heartbeat, which varies from person to person but averages around 60-100 beats per minute at rest. To convert this to pulses in one second, you would divide by 60 (for 60 seconds in a minute), resulting in roughly 1-1.7 pulses per second.
The BAR has a selective fire switch, and could be set to either 300 rpm (5 per second) or 500 rpm (8.333... per second). Neither figure is really accurate though as it was fed by 20 round box magazines. And a good BAR man fired in short bursts. The recoil of the .30-06 rounds would throw off the aim after a few rounds, and tend to overheat the weapon.
To calculate the distance a cockroach, crawling at a speed of 1.5 centimeters per second, would cover in an hour, we need to convert the time from seconds to minutes and then to hours. There are 60 seconds in a minute, so the cockroach covers: 1.5 centimeters/second * 60 seconds/minute = 90 centimeters/minute. There are 60 minutes in an hour, so the cockroach covers: 90 centimeters/minute * 60 minutes/hour = 5400 centimeters/hour. Therefore, the cockroach would cover 5400 centimeters or 54 meters in an hour.
Quite simple. Take the km/s number and change it into m/s. So 5km/s would equal 5000m/s. Then multiply that number by 60 (because there are 60 seconds in a minute) and you get your answer in meters per minute. 5km/s = 5000m/s x60 = 300000 meters per minute
As many as the firer was capable of firing. The Mauser had an internal box magazine which held five rounds. On top of that, it's a bolt action rifle. 30 rounds per minute would probably be a reasonable estimate in the hands of an experienced and proficient operator.
1 per minute.
Over the years, your cars engine would get worn out and not run at full rpm (rounds per minute). Time for a tune up.