The power required for an 85kg man on a 5.2° incline can be calculated using the formula: Power = Force x Velocity. In this case, the force can be calculated by multiplying the weight (mg) by the sine of the incline angle. The velocity can be calculated using the formula: Velocity = Distance / Time. Therefore, the power required can be calculated by multiplying the weight by the sine of the incline angle and the velocity.
The weight of an 85kg man is simply 85kg. This is the mass of the man multiplied by the acceleration due to gravity (9.8m/s²).
The force on a 5.2° incline can be calculated using the formula: Force = Weight x sin(incline angle). This is because the weight of the object is being pulled towards the center of the Earth, and this force can be split into two components - one perpendicular to the incline and one parallel to the incline. The force parallel to the incline is what we are interested in, and it can be calculated using the sine of the incline angle.
Yes, you can use this formula for any incline angle as long as you are using the correct units (e.g. weight in Newtons, incline angle in radians). If you are using degrees for the incline angle, make sure to convert it to radians first by multiplying by π/180.
This calculation is based on simplified physics principles and does not take into account factors such as air resistance or rolling resistance. Therefore, it may not be completely accurate in real-world situations. However, it can provide a good estimate of the power required for a person on an incline.