yes as long as its the same size
Something that will look the same eve if rotated around an axle. A wheel is rotationally symmetrical around one axle.
A kite has only one line of rotational symmetry, as it is only the same if it is tilted once. (back to its normal position).
I think it is in the same place as a normal car
To allow the drive axle to transmit same power while car is steering and axle/ hub angle is changing.
If we are talking about a normal arrow, then no. if " -> " is rotated 90 degrees, it would not look the same as it did before. It would look something like this: ^ | Which would not be the same.
They are in thermal equilibrium, not rotational equilibrium.
Yes the 60 is just the height of the tyre as long as it is the same inch tyre (16) and same tyres are fitted in pairs front or rear axle.
Yes. Any even sided figure will have a rotational symmetry. Yes. If it is a regular shape such as a square, hexagon or octagon (equilateral and equiangular) then the rotational symmetry is the same as the number of sides. Rotational symmetry is basically if the shape is rotated, is it exactly the same as it was before. A hexagon can be rotated 6 times and still be the same without actually being in the the same postition, so a hexagon has a rotational symmetry of 6.
No. A tri-axle has one additional lift axle; a quad axle has two lift axles.
No, the letter Y does not have rotational symmetry. It cannot be rotated and still appear the same.
They are the same
Rotational symmetry is when you turn or rotate a shape and it still looks the same. A circle is the most common answer. However, it you rotate a square about 90 degrees, it still looks the same, so it is considered rotational symmetry. Technically, any shape can have rotational symmetry because it you rotate it 360 degrees, it still looks the same.Definition of rotational symmetry:Generally speaking, an object with rotational symmetry is an object that looks the same after a certain amount of rotation. An object may have more than one rotational symmetry; for instance, if reflections or turning it over are not counted. The degree of rotational symmetry is how many degrees the shape has to be turned to look the same on a different side or vertex. It can not be the same side or vertex.