32.5 kilometers = 32,500 meters
There are 0.32 meters in 32 centimeters.
You can calculate it yourself, with the formula for acceleration in uniform circular motion. The centripetal acceleration, with circular motion, is v2 / r (velocity squared divided by the radius). Since the Earth's gravitation is about 9.8 meters per second square, solve the equation v2 / r = 9.8, for variable v. r (radius, of the Earth) should be converted to meters. The velocity will be in meters per second.Note that this exercise assumes the Earth is rigid. In practice, if Earth really rotated that fast, it would flatten out a lot, and in fact be torn apart.You can calculate it yourself, with the formula for acceleration in uniform circular motion. The centripetal acceleration, with circular motion, is v2 / r (velocity squared divided by the radius). Since the Earth's gravitation is about 9.8 meters per second square, solve the equation v2 / r = 9.8, for variable v. r (radius, of the Earth) should be converted to meters. The velocity will be in meters per second.Note that this exercise assumes the Earth is rigid. In practice, if Earth really rotated that fast, it would flatten out a lot, and in fact be torn apart.You can calculate it yourself, with the formula for acceleration in uniform circular motion. The centripetal acceleration, with circular motion, is v2 / r (velocity squared divided by the radius). Since the Earth's gravitation is about 9.8 meters per second square, solve the equation v2 / r = 9.8, for variable v. r (radius, of the Earth) should be converted to meters. The velocity will be in meters per second.Note that this exercise assumes the Earth is rigid. In practice, if Earth really rotated that fast, it would flatten out a lot, and in fact be torn apart.You can calculate it yourself, with the formula for acceleration in uniform circular motion. The centripetal acceleration, with circular motion, is v2 / r (velocity squared divided by the radius). Since the Earth's gravitation is about 9.8 meters per second square, solve the equation v2 / r = 9.8, for variable v. r (radius, of the Earth) should be converted to meters. The velocity will be in meters per second.Note that this exercise assumes the Earth is rigid. In practice, if Earth really rotated that fast, it would flatten out a lot, and in fact be torn apart.
If you walked 2 meters in 1 second, then you could walk 500 meters in 250 seconds, or 4 minutes, 10 seconds_____________________________________________________Remember DiRT : Distance = Rate X Time Distance D= 500 m Rate R = 2m/s Time T = D/R 300m /divided by/ 2m/s = 150 seconds
Depends on the scaling on the thermometer. 0°C 273.16K 32°F 459.67°R
If you mean a cylinder, use the formula base x height; the base is calculated as pi x r squared, so the volume becomes pi x r2 x height. r (the radius) is half the diameter.the volume is 3768 cubic meters
The answer is 0.87 inches (approx.). Inches and centimeters are both units of linear measurement. Inches are used in the imperial system whereas centimeters are used in the metric system. To convert from cm to inches, multiply the cm unit by 0.393701.
23 centimeters is 0.23 meters.
1 kilometer=100,000 centimeters
975cm is 0.00975 meters.
1 centimeter = 10 millimeters
4 r=32
how metres r in milli metres
The conversion for Meters to Kilogram is the following: Xm = Ykg * µpi²
What is the radius of a sphere is given by the formula r 0.7 5V 13 .that has a volume of 32 3 cubic meters where V is its volume. Find the radius of a spherical tank
There are 1 609.344 in a mile
82 R 1
1 R 11
32 R 1