Yes.
1 meter = 100 centimeters1 minute = 60 seconds(3.5 cm/sec) x (60 sec/min) x (1/100 meter/cm) = (3.5 x 60 / 100) (cm - sec - meter / sec - min - cm)= 2.1 meter/minute
divide the mass over the volume and the answer is 2.3 D=M over V D=23 over 10=2.3.
Marble has a hardness of around 3-4 on the Mohs scale, which measures the hardness of minerals. This means that marble is a relatively soft stone compared to others.
At a pace of 10m/sec it would take him 50 seconds.
That is a standard target marble. 16mm is 5/8ths of one inch. A little bit smaller than a US 10 cent coin.
lie on your stomach reach as far as possible with feet and hands for 10 sec. get on your fore arms hold for 10 sec. get on your hands hold for 10 sec. repeat that 5 times it makes my back fell great!
10 kw = 10 kJ/sec = 9.478 BTU/sec = 34120 BTU per hour.
1 meter = 100 centimeters1 minute = 60 seconds(3.5 cm/sec) x (60 sec/min) x (1/100 meter/cm) = (3.5 x 60 / 100) (cm - sec - meter / sec - min - cm)= 2.1 meter/minute
Only if its metres / sec in a circular path, then you would need the radius to work out its revs per second, then multiply by (2 * pi) to get radians / sec. > Example 10 m/s at 10 m radius Circumference = 2 * pi * r = 2 * 3.1416 * 10 = 62.832 meters So, 10 / 62.832 = 0.159 revs / sec Then, 0.159 * 2 * pi = 1 rad / sec > However, you can boil down the sequence to leave : rad / sec = velocity (m/s) / radius (m)
10 miles/hour = 14.66667 feet /sec
10 sec/1 min = 10 sec/60 sec = 1/6
No, it is not possible to lose 10 pounds of body weight per day.
10 with 20 zeroes after it, I think. (km per sec)
10 meters per sec.
velocity = acceleration x time 27 = acceleration x 10 acceleration = 2.7 m/sec/sec
7*10-2 per beat
If you can commit some relationships to memory, it helps. This is one: 60 mph = 88 ft per sec. Divide both sides by 10 --> 6 mph = 8.8 ft per sec. So (600 ft)/(8.8 ft/sec) = 68.182 sec, or 1 minute, 8.182 seconds.