Yes, it is possible for an object to cast several shadows. One example, is that of a footballer on a floodlit pitch. If he is in the central region of the field, you will usually see four shadows: one from each of the corner floodlights.
because light may be hitting it from many different areas or views.
Shadows are caused when an object blocks part of a beam of light that is falling on a surface. The surface areas receiving less light are darker (less illuminated by the light) and may assume the same general shape of the object causing the shadow.
its possible in any possible ways depending on the force put on it .
Yes, that's possible.
image form by plane mirror are virtual,upright,left- right reversed,the same distance from the mirror as the object's distance,and the same size as the object.............that's all
No, it is not possible for a human to have two distinct shadows at the same time. Shadows are created when an object blocks light, so having two separate shadows would require two different light sources in opposite directions, which is not a typical scenario.
Use a flashlight
Two light sources at different angles with respect to the object.
If the object was a regular shape (a cube for example) it would cast the same shadow from any angle. An irregular shape (such as a car) will cast different shadows dependent upon the source of the light.
because light may be hitting it from many different areas or views.
Shadows are caused when an object blocks part of a beam of light that is falling on a surface. The surface areas receiving less light are darker (less illuminated by the light) and may assume the same general shape of the object causing the shadow.
Unlikely, but possible.
Yes
No. Not unless its mass is different. But then it wouldn't be the same object.
its possible in any possible ways depending on the force put on it .
Theoretically if light reflected off you would be same as what it would be if you were not there and shadows did not form you would be invisible. Practically it is impossible.
This follows from Newton's Second Law, if expressed in vector form.