To get meters per minute, you'd multiply meters per second times the number of seconds in a minute which is 60.
A third of a trillionths of a second.
speed = distance over time = wavelength times frequency = 2 m times 10 hz = 20 m hz = 20 meters per second.
New answer - J=kg*m^2/s^2. J/kg=m^2/s^2 The definition of Joule is N * m (Newtons times meters) The definition of Newton is kg * m / s2 (kilograms times meters divided by seconds squared) Dividing the unit Joule by kilograms leaves meters per second squared (or meters mer second per second)
The speed of sound varies widely; in air, it is about 331 meters per second (multiply by 3.6 to get km/hour), in steel it can be about 5 times as fast.The speed of sound varies widely; in air, it is about 331 meters per second (multiply by 3.6 to get km/hour), in steel it can be about 5 times as fast.The speed of sound varies widely; in air, it is about 331 meters per second (multiply by 3.6 to get km/hour), in steel it can be about 5 times as fast.The speed of sound varies widely; in air, it is about 331 meters per second (multiply by 3.6 to get km/hour), in steel it can be about 5 times as fast.
The answer is 3.8 times 3.8 equals 14.44 square meters
To get meters per minute, you'd multiply meters per second times the number of seconds in a minute which is 60.
2,000 newtons
g is a measurement of acceleration namely 9.8 meters per second squared. When there is an acceleration of 2g then simply multiply 9.8 meters per second squared times 2 or 19.6 meters per second squared.
A third of a trillionths of a second.
There are 60 seconds in one minute. So however many meters the car coversin one second, it covers 60 times as many meters in a whole minute.
To convert rpm to meters per second, you can use the formula: speed (m/s) = (rpm * 2π * radius) / 60. First, calculate the angular speed by multiplying rpm by 2π, then multiply by the radius in meters, and divide by 60 to convert to meters per second.
Exactly 299,792,458 meters per second. Or about 9.461 times 10 to the power 15 meters in a year.
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The product of mass in kilograms and velocity in meters per second is the momentum of the object, measured in kilogram-meters per second (kg*m/s).
About 300,000,000 meters per second - enough to go around the Earth 7.5 times in a single second.
speed = distance over time = wavelength times frequency = 2 m times 10 hz = 20 m hz = 20 meters per second.