No matter how you turn a circle, it will always be in the same position, therefore circles have infinite amounts of lines of symmetry.
Yes they do as a matter of fact as you can see they go directly down so they have at least 1 line of symmetry.
A rectangle,hexagon,octagon,triangle,decagon. It could be that looks dividable because no matter where you divide it, it has a line of symmetry... It could also be a snowflake!
A circles lines of symmetry go on forever no matter which way you go.
no matter what is on one side if the shape is symmetrical the other side must be the same
O has the most symmetry because no matter how you turn it, it is still the same.
No. Look 7 the top and bottom are uneven lengths and no matter what angle you put the line of symmetry at, there will still be no proper symmetry line
No matter how you turn a circle, it will always be in the same position, therefore circles have infinite amounts of lines of symmetry.
Yes they do as a matter of fact as you can see they go directly down so they have at least 1 line of symmetry.
Matter have pigments in its composition, then the color will be showed when light get to the matter.
No. Matter occupies space and has mass. Color does neither.
Matter can be colored - and usually is, especially solids - but the color of something is just the wavelengths of light reflected back from it. So...no, matter has color but it can't be color.
The basic body symmetry of a cnidarian, especially a jellyfish, is radial, meaning that no matter how it is bisected along its central axis, its two halves will be mirror images of one another.
Not sure what you are referring to, "radical" symmetry. But if you meant radial symmetry then you might be looking at animals in the family with starfish, jellyfish, anemones, etc. There is also bilateral symmetry where both sides look the same. Look up radial symmetry and see what you can find.
A rectangle,hexagon,octagon,triangle,decagon. It could be that looks dividable because no matter where you divide it, it has a line of symmetry... It could also be a snowflake!
no matter what is on one side if the shape is symmetrical the other side must be the same
A circles lines of symmetry go on forever no matter which way you go.