In the atmosphere, some of the sun's rays get absorbed or reflected in all directions.
Omnidirectional Radiation. OR Scattering
The point on the Earth's surface directly above where an earthquake occurs is called the "epicenter." It is the location where the seismic waves originate and spread out in all directions.
Energy radiates in all directions from the focus (or hypocenter) of the earthquake, which is the point within the Earth where the seismic rupture initiates. The energy released in the form of seismic waves travels through the Earth and is detectable on the surface as ground shaking.
Atmospheric pressure pushes in all directions equally, but primarily downward towards the Earth's surface. This is why we feel pressure from all sides of the atmosphere.
Photons travel outward from a light bulb in all directions
This is called isotropic deformation, where the material deforms equally in all directions.
A flat extending endlessly in all directions is called a plane.
Visible light causes reflection of light in all directions
The flat surface that goes on and on in all directions has no boundaries. This flat surface is called infinite surface. Accordingly, the answer is that the flat surface that goes on and on in all directions is called an infinite surface.
One directions first album is called 'Up All Night'.
A flat surface that extend infinitely in all directions is called a plane.
Refraction
LIGHT
North, south, east and west are all referred to as cardinal directions.
North, south, east and west are all referred to as cardinal directions.
In two-dimensional wave spreading, energy loss is typically faster with cylindrical spreading, where the wave energy spreads out in a circular pattern. This is because more energy is dispersed to the sides compared to spherical spreading, which is more evenly distributed in all directions.