# How long can light travel in space?

## Propagation of light¶

Electromagnetic waves that are within the sensitivity range of the human eye are referred to as light. The light visible to humans has a wavelength of (purple) to (red).

### Light sources¶

Objects that independently generate and emit light are called self-luminous objects or light sources. [1] Most objects (usually called “objects” in optics) do not generate any light themselves, but are still visible. They reflect part of the light falling on them. They are called reflective or illuminated objects.

If light comes into our eye from a luminous or illuminated object, it becomes visible. Light that does not fall into our eyes is invisible (the universe therefore appears black to us).

Examples:

• Self-luminous Objects:

Sun, stars, fire, incandescent and fluorescent lamps, candles, fireflies, LEDs, etc.

• Illuminated Objects:

Earth and moon, planets, objects (satellites, reflectors, dust particles, etc.)

The light spreads from the light source - as long as it does not hit an obstacle - in a straight line and in all directions:

• Sunlight illuminates all celestial bodies, regardless of the direction in which they are from the sun.
• A candle in the middle of the room illuminates all the walls, as well as the ceiling and floor.

### The speed of light¶

In a vacuum (and approximately also in air) light can move with about Spread kilometers per second ("speed of light"). In other translucent materials, the speed of light is lower; in water, for example, light can "only" move at about Spread kilometers per second. [2]

If we could move at the speed of light, we could see the earth (circumference at the equator: approx. ) in a second times circle. In the universe, however, light has to cover such great distances that path lengths are sometimes given in light seconds, light minutes, light hours, light days or even light years. In order to get from the sun to the earth, a ray of light needs to be round Light minutes.

### Light and illuminance¶

In order to be able to compare the brightness of different light sources, the light intensity was introduced as a physical quantity. If one light source appears brighter than another from the same distance, it has a greater luminous intensity.

Definition and unit:

The light intensity is a basic quantity of the international system of units. Your unit is the candela .

Examples:

While the light intensity is a property of the light source, gives the illuminance on what proportion of the light hits a certain surface.

Since the light spreads evenly in all directions, the light rays are distributed over ever larger surfaces. The illuminance decreases to the same extent as the surface of the (spherical) surface flooded with light increases.

Formula and unit:

The illuminance is greater, the greater the light intensity the light source is. At the same time, the illuminance increases with the square of the distance from the light source. The following applies in total:

The illuminance is in lux specified.

Depending on the activity, different illuminance levels are perceived as pleasant.

Examples:

Sunlight can have an illuminance of up to in summer cause, on a cloudy winter day only about to . The light of a full moon on a clear night only has an illuminance of around .

### The light transmission¶

There are two types of translucent objects:

• Transparent objects (such as window glass) let light through so that objects behind them can be seen.
• Translucent objects (e.g. frosted glass) let light through in such a way that objects behind them cannot be seen.

The transparency of an object depends on the material and the layer thickness. Water, for example, allows light to pass through in thin layers, but not in thick layers; in great depths of the sea there is complete darkness.

Objects that are opaque to light (e.g. metal, cardboard, etc.) do not let light through; they are opaque - provided that they are of sufficient material thickness. For example, very thin layers of paper are translucent, even though paper is inherently opaque.

Objects that are impermeable to light can limit the spread of light.

The aperture

An aperture is a small, usually round opening in an otherwise opaque object. Only part of the light, a “bundle of light”, passes through a screen. This light bundle can be represented graphically by the bundle axis and marginal rays.

Creation of light bundles through a diaphragm.