At what rate would a 75kg person travel during a slip/fall on a wet surface to the landing position.
To determine at what rate a person would travel during a slip/fall on a wet surface, we need to consider a few factors. The main factors are the initial slipping speed, the distance traveled, and the time it takes to reach the landing position.
1. Initial Slipping Speed: This depends on various factors, such as the angle of the surface, the friction coefficient between the surface and the person's shoes, and the force exerted by the person during the slip/fall. Without specific values for these factors, it is challenging to calculate an exact initial slipping speed. However, we can assume that the initial speed would typically be higher than the speed achieved at the landing position due to the force of the slip/fall.
2. Distance Traveled: The distance traveled during a slip/fall depends on the initial slipping speed, the angle of the surface, and the time it takes for the person to reach the landing position. Assuming a horizontal landing position, the distance traveled can be estimated by considering the horizontal displacement of the person during the fall.
3. Time to Reach Landing Position: The time it takes for a person to reach the landing position during a slip/fall depends on factors such as the speed of the slip, the angle of the surface, and any external influences (e.g., air resistance) that may affect the movement. These factors can vary widely and make it difficult to calculate an exact time.
Given the limitations and complexity involved in calculating the exact rate at which a 75kg person would travel during a slip/fall on a wet surface to the landing position, it's best to approach this question qualitatively rather than quantitatively. Generally, during a slip/fall, a person's speed can be expected to decrease as they lose control and attempt to regain balance. The wet surface would reduce friction, making it harder to stop or slow down.