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it is not always on the right of a shirt.
The hippopotenuse.
hypotenuse
No, it is not the shortest side. The hypotenuse is the longest side. Also, it's always opposite the right angle.
It is the side opposite the right angle. It is also the longest side.
A diverging lens can only produce a virtual image, because the light passing through a diverging lens never converges to a point. The virtual image produced by a diverging lens is always right-side-up and smaller than the original object. The image and the object viewed are always on the same side of the lens. Diverging lenses are used as viewfinders in cameras.
right side is usually always passenger side
it is not always on the right of a shirt.
The passenger side is always the right side.
A converging lens is a simple magnifying glass when the object is within one focal length of the lens. The image is then virtual, magnified, and right-side up.
Place an object between a magnifying lens and its focal point. The image is right side up and larger than the object
Almost always on the right. (Almost always because in rare instances it is on the left.)
The side opposite the right angle is longest.
the right side of the car is ALWAYS the right side as viewed from the back, in the US it's the passenger side, in UK it's the driver side
A convex lens has one flat side and one curved side --> |) A biconvex lens has both sides curved --> ()
Your are mixing properties. Converging lens is always thicker in the centre and thinner at the edges. The other cathegory is the geometry of shape of the surfaces of the lens. Convex means that the shape is similar to the outer surbace of a sphere, concave means that the shape is similar to the iner surface of a sphere (or: convex = lower side of a spoon as we use it for sampling a soup; concave: upper (inner) shape of the spoon). A double convex lens is always a converging lens. A plano-concave lens is always a diverging (not converging) lens. A convexo-concave lens is the most usual shape of a lense used in spectacles. It can be either converging or diverging, depending on the radii of the surfaces.
Hypotenuse