No tengo ni idea.
c=ttr
If the mine winch drum diameter is 6m, the radius (r) would be half of that, which is 3m. Using the formula c = 2πr, where r = 3m, we can calculate the circumference of the drum to be c = 2 x π x 3 = 6π meters. Therefore, for each single rotation of the drum, the cage will drop a distance of 6π meters.
𝗔𝗻𝘀𝘄𝗲𝗿: To determine the distance the cage will drop for each single rotation of the mine winch drum, we can utilize the formula you mentioned: C = 2πr, where C represents the circumference of the drum, and r represents its radius. Given that the drum diameter is 6m, we can calculate its radius by dividing the diameter by 2. Thus, the radius (r) would be 6m / 2 = 3m. Now, we can substitute the radius (r) into the formula: C = 2π(3m). To find the distance dropped for each single rotation (d), we can multiply the circumference (C) by the number of rotations (T). Therefore, d = C × T. Since the number of rotations (T) for each drop is 1, we can simplify the equation to d = C. Plugging in the value for C, we get d = 2π(3m). To calculate the exact distance, we can use the approximation for π as 3.14. Hence, the distance the cage will drop for each single rotation of the drum is approximately 2 × 3.14 × 3m, which equals 18.84m. Therefore, for each rotation of the drum, the cage will drop approximately 18.84 meters.
yes it is because if you do you wil get more moeny
Yes, a reflection followed by a rotation can indeed be described as a single rotation under certain conditions. Specifically, if the line of reflection is positioned at an angle that bisects the angle of rotation, the combined transformation can be expressed as a single rotation about a point. This is often seen in geometric transformations where the resulting effect maintains the rotational symmetry. However, not all combinations of reflection and rotation will yield a single rotation; it depends on their relative orientations.
No. It would be a diagonal.
rotation
single
Single hip rotation---A+
Rotation . . . . . the "Day" Revolution . . . . the "Year"
Any object that revolves around a single axis undergoes circular motion , the line about which the rotation occur es is called "axis of rotation"
There is no single diameter - there are steel rods of different diameters for different uses.