A light year is how far light travels in a year. A light min is how far light travels in a minute.
light speed is 186000 mile/sec, at this speed you have to calculate how far it would travel in one year or one minute
8 min.
approx. 3 min. Acually that's wrong it will take 8 or 9 min. Because it takes light from the sun 8 or maybe 9 min. to get to Earth.
If you mean in a year then that's about the length of time in a year and that's why we have an extra day each leap year.
Minutes are a unit of time, not of distance. Perhaps you mean LIGHT minutes, which refer to the distance light travels in a minute. Earth is 1 AU from the sun, which takes light about 8 minutes and 20 seconds. Mars is about 1.5 AU, so when earth and Mars are on the same side of the sun, the distance between them is 0.5 AU. Light would take four minutes, 10 seconds to cross that gap. When Mars and Earth are on opposite sides of the sun, the distance between them is 2.5 AU, which would take light nearly 21 minutes to cross. On average, Earth and Mars would be at roughly right angles to the sun, so you could use the Pythagorean theorem to calculate the distance of their hypotenuse: About 1.8 AU. I'll leave the conversion of this into light time as an exercise for the gentle reader.
The Sun is nearest star to Earth. Its light takes about 8 min. 20.33 sec. to reach to Earth. Its mine the distance of the Sun is near about 150 million km.
an example of a light min. is an opposite of a year.
an example of a light min. is an opposite of a year.
1 min 40 sec or 100 sec.
5h 30 min
-0.0787 ddes cel
-0.0787 ddes cel
It's called "range" in English and it is a difference between min. and max. value.
There is not significant difference between rest cardiac output but during the load amateur heart pumps 18-24 l/min, professional heart pumps 32-38l/min.
There are 525600 min in a year
17987547480m/min -> speed of light per minute 299792458m/s -> speed of light per sec or light speed
It is the distance light travels (in a vacuum) in one year. 1 ly = (299,792,458 m/s)(60 s/min)(60 min/hr)(24 hr/day)(365.25 day/year) = N m/year This can be solved for N which is the number of meters light can travel in a vacuum (space) over the course of one year. <<>> The international definition of a light year uses a Julian year as the basis for the calculation, which is exactly 365¼ days, making the distance 9.46073047 times 10 to the power 15 metres.
Prediction: What you think (or claim to think) before the experiment. Observations: What you saw happen.