ground ot
When the shadow is cast on another object it is called an eclipse.
The position of the sun relates to the length of the shadow cast by an object because, when the sun is above the object there is no shadow yet, when the sun is say to the east of the object a shadow is cast towards the west, the farther the sun for example east the longer the shadow will be towards the west.
To cast a shadow, three things are needed: a source of light, an object to block the light, and a surface for the shadow to be projected onto.
Yes, the shadow is longer behind an object, as it is cast by the object blocking the light source. The length of the shadow will depend on the angle and position of the light source in relation to the object.
Yes, as long as it is in the right position of a light, it will reflect a shadow. Even if it is glass it will show a light shade of a shadow :)
When the shadow is cast on another object it is called an eclipse.
A shadow cast on one object in space on another is ECLIPSE
The position of the sun relates to the length of the shadow cast by an object because, when the sun is above the object there is no shadow yet, when the sun is say to the east of the object a shadow is cast towards the west, the farther the sun for example east the longer the shadow will be towards the west.
To cast a shadow, three things are needed: a source of light, an object to block the light, and a surface for the shadow to be projected onto.
Yes, the shadow is longer behind an object, as it is cast by the object blocking the light source. The length of the shadow will depend on the angle and position of the light source in relation to the object.
yes it dose cast a shadow because you can not see through it.
Yes, as long as it is in the right position of a light, it will reflect a shadow. Even if it is glass it will show a light shade of a shadow :)
A shadow is formed in the opposite direction of the light source. For example, when the light source is behind an object, the shadow is cast in front of the object.
Yes, translucent objects can cast a shadow. When light passes through a translucent object, it can still create a shadow behind the object depending on the intensity and direction of the light source.
Yes, a shiny object can still cast a shadow when light shines on it. The shadow may not be as distinct as with a non-shiny object, but it will still be present due to the object blocking the light.
Because no light can pass through something opaque
'Tip of the shadow' means the edge, likely the top (or tip) -- say of a hat, for instance.