Yes or they could be congruent to each other.
Take the triangle for instance, there are 3 types. One is the same on each side which is the equilateral. But the other 2 types are flat on 2 sides and diagonal on the other side.
Because their interior and exterior angles are the same measurements.
American footballs and Rugby balls are both considered 'balls' but neither are spheres.
The side lengths of corresponding sides must all be in the same proportion to each other. So, for example, if you have a quadrilateral ABCD and you want to prove that it is similar to WXYZ, then you must show that all the side ratios are equal to each other. That is: AB/WX = BC/XY = CD/YZ = DA/ZW
All living things weather in the air or in the oceans, or on and beneath the land surface, make up the biospehere. THE BIOSPEHERE extends INTO each of the other spheres.
True...
The hydrosphere.
There is one type - all spheres are similar.
True only if they have different diameters
All outer planets in our solar system are gas giants, made up mostly of hydrogen and helium. They have thick atmospheres and lack solid surfaces. Additionally, they all have ring systems and multiple moons.
The biosphere is dependent on all other spheres on Earth (hydrosphere, lithosphere, atmosphere) in order to exist. It encompasses all living organisms and their interaction with the other spheres, showing how interconnected and interdependent life on Earth is.
Yes or they could be congruent to each other.
By definition all spheres are identical in shape because a sphere is perfectly round. That's what "sphere" means. In the same way, all perfect squares are identical and all equilateral triangles are identical. Spheres might be larger or smaller, but the shape of all is the same because there is only one kind of sphere.
they all share similar ideas
matter and energy
The four major spheres of Earth are the lithosphere (solid outer layer), hydrosphere (all water sources), atmosphere (layer of gases surrounding Earth), and biosphere (all living organisms). These spheres interact and influence each other, playing a crucial role in shaping Earth's environment and supporting life.