Ther velocity when falling 1000 meters is v=sqroot(2x1000x9.8) = 140 meters/second.
About 1000 meters
Wave speed = (frequency) x (wavelength) = (50) x (20) = 1,000 meters.
To convert 1 kilometer to meters, multiply by 1000. So, 1 kilometer is 1000 meters. To convert 4.1 minutes to seconds, multiply by 60. So, 4.1 minutes is 246 seconds. The velocity of the bicycle would be 1000 meters / 246 seconds = 4.07 meters per second west.
the greatest velocity a falling object reaches is terminal velocity
The final speed of an object in free fall is known as terminal velocity. Terminal velocity on Earth can range from 54 meters per second (in SI units) to 90 meters per second based on aerodynamics.
The speed (magnitude of velocity) is always 9.8 meters per second (32.2 feet per second) greater than it was exactly one second earlier. If the object spent "N" seconds falling, then its speed (magnitude of velocity) is 9.8N meters per second (32.2N feet per second) greater at the bottom than it was at the top. The direction of velocity remains constant under the influence of gravity ... straight down.
the answer is 24-9 m/sec. yuor welcome
the greatest velocity a falling object reaches is terminal velocity
The gain velocity per second for a freely falling object is approximately 9.81 meters per second squared, which is the acceleration due to gravity on Earth. This means that the object's velocity increases by 9.81 meters per second for every second it falls.
The terminal velocity for iron depends on its shape, size, and the medium it is falling through. For a small iron object falling through air, the terminal velocity is typically around 20-40 meters per second. However, in a vacuum, the terminal velocity would be much higher and dependent on the specific conditions.
Any change in the velocity of anything is known as 'acceleration'. In the case of a falling object near the Earth's surface, the direction of the velocity is constant, and its magnitude increases by 9.8 meters (32.2 feet) per second, every second.
Gravity accelerates falling objects, causing them to increase in velocity as they fall towards the ground. The rate of acceleration due to gravity is approximately 9.8 m/s^2 on Earth, meaning that objects will speed up by 9.8 meters per second for every second they fall.