So far I have a list of this:
ping pong ball
ornament
bouncy ball
rounded/crumpled up piece of paper
cotton ball
Nerf ball
ball of yarn
They are both spherical objects.
The definition of globular: ball-shaped: having the shape of a sphere or ball
The force of gravity pulls objects toward their center, causing them to form a spherical shape over time. Planets and other large celestial bodies are able to overcome any irregularities and form into spheres due to gravity's influence on their mass and density.
Simple answer - They are sphere'sRelatively simple answer - They are oblate spheroidsComplex answer. The Earth and Moon are oblate spheroids (The Earth to a greater effect), whereas the Sun is a gaseous body so it experiences an extended oblate spheroid property.
The pull of gravity is stronger at the poles and weaker at the equator due to the Earth's rotation. This causes objects to be slightly heavier at the poles than at the equator, which is evidence of the Earth's spherical shape. Additionally, the way objects fall toward the center of the Earth in all directions indicates a spherical geometry.
Spherical objects do not have 'sides'.
They are both spherical objects.
You call them stones.
Mercury has about the most perfectly spherical shape, but Saturn has the leastspherical shape (next least spherical is Jupiter).
Bot stars and planets are spherical objects that are held together by gravity.
A torsion balance, a.k.a. Cavendish balance.
They tend to be round, spherical objects which are visible in space. They have great mass and their own gravity.
He is the father of spherical astronomy, by which the location of objects like planets and stars in the universe can be determined.
Since stars are normally spherical objects, they have rotational symmetry of infinite order.
The larger ones are spherical. Some are oddly shaped and appear to be captured asteroids or pieces of other, broken satellites. some appear to be relatively loose assemblages of smaller objects.
calipers can measure its diameter and check for roundness. Water displacement can measure its volume.
Volume of a sphere = 4/3*pi*radius3 measured in cubic units