Well, 125 cm is about 49.2 inches, since an inch is about 2.54 cm, which is about 4.1 feet. Now there are 5,280 feet in a mile, and 3,600 seconds in an hour, so a foot per second is 3600 feet per hour which is 3600/5280 mile per hour, which works out to 15/22 mile per hour. So 125 cm per second is about 4.1 feet per second which is about 66/22 or 3 miles per hour.
0.09m/s
Divide by 360,000. 100 for cm to metre and 3600 for hour to sec.
It is 0.024 kilograms per cm^3 or 24 grams per cm^3.
5 cm/year
The density of the material is 20g/125 cubic metres = 0.00000016 grams per cubic centimetre.Volume is measured in cubic units of length and so it has been assumed that "125 cm" refers to 125 cubic metres.The density of the material is 20g/125 cubic metres = 0.00000016 grams per cubic centimetre.Volume is measured in cubic units of length and so it has been assumed that "125 cm" refers to 125 cubic metres.The density of the material is 20g/125 cubic metres = 0.00000016 grams per cubic centimetre.Volume is measured in cubic units of length and so it has been assumed that "125 cm" refers to 125 cubic metres.The density of the material is 20g/125 cubic metres = 0.00000016 grams per cubic centimetre.Volume is measured in cubic units of length and so it has been assumed that "125 cm" refers to 125 cubic metres.
0.09m/s
Divide by 360,000. 100 for cm to metre and 3600 for hour to sec.
To convert cm per sec to meters per min, we need to consider that there are 60 seconds in 1 minute. So, 32 cm per sec is equivalent to 32*60 = 1920 cm per min. To convert cm to meters, we divide by 100, so 1920 cm/min is equal to 19.2 meters per minute.
Conversion: cm per second x 0.02237 = miles per hour
To convert cm/s to mph, you can use the following formula: 1 cm/s is equal to 0.0223694 mph. So, to convert, multiply the speed in cm/s by 0.0223694 to get the speed in mph.
approx 10 cm / sec for a fish about 2 to inches long
It is 0.024 kilograms per cm^3 or 24 grams per cm^3.
in my science book it says pebbles move .75 cm/sec
To convert 10 meters per minute to centimeters per minute, you would multiply by 100 to get the equivalent distance in centimeters. Therefore, 10 meters per minute is equal to 1000 centimeters per minute.
5 cm/year
The density of the material is 20g/125 cubic metres = 0.00000016 grams per cubic centimetre.Volume is measured in cubic units of length and so it has been assumed that "125 cm" refers to 125 cubic metres.The density of the material is 20g/125 cubic metres = 0.00000016 grams per cubic centimetre.Volume is measured in cubic units of length and so it has been assumed that "125 cm" refers to 125 cubic metres.The density of the material is 20g/125 cubic metres = 0.00000016 grams per cubic centimetre.Volume is measured in cubic units of length and so it has been assumed that "125 cm" refers to 125 cubic metres.The density of the material is 20g/125 cubic metres = 0.00000016 grams per cubic centimetre.Volume is measured in cubic units of length and so it has been assumed that "125 cm" refers to 125 cubic metres.
cm/sec, yes? ok, divide by 100 to go from cm to m. then multiply by 3600 to go from sec to hr