Of course not, It shows your external appearance not structure, and the image may be "real" in optical terms but is heavily distorted by the shape of the spoon.
They give you lot some peculiar homework questions! :-)
No, not the actual position in space.
A concave mirror the image will always be smaller then the actual image
A concave lens (biconcave) forms images that are upright and smaller than the actual object. It refracts light rays away from the normal. The reflected light rays diverge.
Smaller than actual object and upright (right-side-up)
Yes convex and concave mirrors are also known as spherical mirrors. If mercury coating is made on the convex side of the spherical then mirror is known as concave mirror. If mercury coating is made on the concave side the convex portion would reflect the light fallen so it is named as convex mirror. Actual just a small part of the sphere is taken out and this would act as the spherical mirror.
no it does not showyour actual structre
Yes
No. "Real" image is not the same as "real" object. Nor does it show your structure, only your external appearance - and then in a very distorted way because the spoon is not designed to be a mirror!
Because Concave Mirror converges Light and if object is placed between the principal focus of concave mirror and its pole , it shows a enlarged, virtual and erect image of object. that's why dentists use concave mirror ... hope this will surely help you..
I think you mean shape not structure unless your cutlery has very odd properties that may make me decline an invitation to dinner... To answer - NO. It would act as a very distorted concave or convex mirror. If its shape were a large-radius spherical pr parabolic cap then it may do so with a magnifying or reducing effect, but a spoon is anything but that regualr shape, being usually elongated for a start.
Its because you are looking at a mirror reflection of the actual target.
SMALLER
No, not the actual position in space.
The actual structure
A concave mirror the image will always be smaller then the actual image
The actual structure
A concave lens (biconcave) forms images that are upright and smaller than the actual object. It refracts light rays away from the normal. The reflected light rays diverge.