yes the length of the sun stick does control the distance the shadow moves
The distance the object moves long the distance.
AMA=force produced/force applied TMA=distance effort moves/distance load moves
Work
1.5 km is a distance, not a speed.
When an object moves, it travels some distance. Distance depends on speed and time traveled.How far you get while traveling is the displacement. Displacement and distance are different.Displacement is the difference from the starting point to the ending point. It is a vector, the vector with direction towards the end point from the starting point and magnitude, the separation.Distance is a scalar, magnitude only, and that is what most people mean by how far they travel.
The direction a shadow points turns 15 degrees in one hour. The distance the end of the shadow moves depends on the length of the shadow.
The relationship between the size of a shadow of an object and the distance of light source from the object is indirectly proportional. A short distance will make the shadow big while making the distance long will reduce the size of the shadow.
the distance the piston moves
The shadow's position changes relative to the light source and object. It will move and change in size depending on the direction and distance the object is moved.
When the object moves closer to the light source, the shadow becomes smaller and more defined. This is because there is less distance for the light to travel between the object and the surface where the shadow is cast. As a result, the shadow appears sharper and its size decreases.
either the light source moves, or the object casting the shadow moves, or the surface that the shadow is projected against moves.
The size of a shadow depends on the distance between the light source, the object casting the shadow, and the surface on which the shadow falls. When the torch moves closer to the object, the light spreads out over a smaller area, causing the shadow to appear larger. Conversely, as the torch moves farther away, the light converges over a larger area, resulting in a smaller shadow. This phenomenon is a result of the geometry of light rays and their interaction with the object.
either the light source moves, or the object casting the shadow moves, or the surface that the shadow is projected against moves.
The best shadow moves are: shadow end(120/100), shadow storm(95/100), shadow rush (90/100) and shadow blast(80/100). All the other shadow moves are under 75/100.
Shadows get smaller as the light source moves closer to the object casting the shadow, and they get larger as the light source moves farther away. The size of a shadow is influenced by the distance between the object and the light source.
The position of the sun affects the length and direction of your shadow. When the sun is directly overhead (at its zenith), your shadow will be shortest and directly beneath you. As the sun moves lower in the sky, your shadow will lengthen and shift in direction depending on the angle of the sunlight.
The shadow gets smaller when the object blocking the light source moves further away from the surface on which the shadow is cast. This increase in distance causes the angle between the light rays and the surface to decrease, resulting in a smaller shadow being cast.