50 feet
Not the speed of sound.
When operating at greater than headway speed, a ski craft must maintain a distance of at least 100 feet from swimmers in the water. This safety regulation is implemented to prevent accidents and ensure the safety of individuals in the water. Operators must always be vigilant and adhere to local laws and guidelines regarding safe distances.
Save the non-swimmer - their need is greater ! The swimmer can at least tread water until they're rescued !
Yes.
When operating a vessel at greater than slow no wake speed, you must stay at least 100 feet away from swimmers, downed skiers, or persons wading in the water. This distance helps ensure the safety of individuals in the water and minimizes the risk of accidents caused by boat wakes or proximity. Always be vigilant and follow local regulations, as distances may vary by jurisdiction.
The answer is: The swimmer exerts a reaction force on the water.
The speed is the same. Light travels at a finite speed.
The speed of sound in water is greater than the speed of sound in air . For example, at 20 °C and 1 ATM pressure, the speed of sound in air is 343 m/s, and its speed in water is 1482 m/s. In general, the speed of sound in a medium = (bulk modulus of the medium/ its density)^0.5 where the bulk modulus indicates how compressible the medium is; the greater the bulk modulus, the more incompressible the medium is. So, although water has a density much greater than that of air, water is also much more incompressible than air. When you solve for the speed of sound for both water and air using the above formula, you will find that it is greater in water.
Since the speed is constant (acceleration is zero), we know the horizontal forces are balanced.The swimmer's forward force cancels the 110N drag force.Work done by the swimmer is (110N x .22meter) = 24.2 N-m per second= 24.2 Joules per second= 24.2 watts
yes because the flippers known as fins in proper swimming give the swimmer wider spread feet which means that there is more room for the swimmer to push aside more of the water and faster.
If the water is cold, that means that water molecules have small speed, in hot water, molecules have greater speed, thus greater energy, and need less energy than cold water to be kicked out through the surface.
its because he is a good swimmer