The Earth's top and bottom are defined by the North and South poles, respectively. The concept of top and bottom is based on human perception, as Earth is a sphere with no true top or bottom in space.
The plane that splits the top and bottom halves of the body is called the transverse plane. It runs horizontally across the body, separating the upper (superior) and lower (inferior) portions. This plane is commonly used in anatomical and medical contexts to describe the orientation of structures within the body.
The adult human larynx is typically around 44 millimeters in length from top to bottom.
a human?
The concept you are referring to is called the principle of superposition in geology. It states that in an undisturbed sequence of rock layers, the youngest rocks are at the top and the oldest are at the bottom.
The top parts are called atriums and the bottom ones are called ventricles.
Something which runs from top to bottom, makes your brain ask these kinds of questions.
When your top jaw is over your bottom jaw, it is called an overbite. When your top jaw is behind the bottom jaw that is called and under-bite. For a human the normal is to have a 2 centimeter overbite, a little more with dogs.
The top parts are called atriums and the bottom ones are called ventricles.
A fraction has two parts. On the top is the numerator, and on the bottom is the denominator. The line separating them is called the vinculum.
Top is numerator. Bottom is denomenator.
The top part of a wave is called the crest, while the bottom part is called the trough.
The Earth's top and bottom are defined by the North and South poles, respectively. The concept of top and bottom is based on human perception, as Earth is a sphere with no true top or bottom in space.
I would say none of these
The middle section of a flute is called the body. Top end is the head joint and bottom end is the foot joint.
The top is called the stem end and the bottom is called the bottom.
The vertical distance from the top of a wave to the bottom of a wave is called the amplitude.