A wet field
An object that has a high albedo is one that is highly reflective, but a poor absorber. An object that has a low albedo is one that does not reflect well, therefore, is a good absorber. This means that a black object has low albedo.
An iceberg has the lowest albedo among the options provided. Albedo refers to the reflectivity of a surface, with lower values indicating less reflection of sunlight. Icebergs, with their irregular surfaces and potential for dirt or algae growth, absorb more sunlight compared to a mirror, a wet field, or a desert, which all reflect a higher percentage of incoming solar radiation.
Surfaces with high albedo reflect more solar radiation, while surfaces with low albedo absorb more solar radiation.
Surfaces with low albedo absorb more solar radiation and reflect less, while surfaces with high albedo reflect more solar radiation and absorb less.
Snow has a high albedo, meaning it reflects a lot of sunlight back into the atmosphere.
No, a mirror does not have a low albedo. Albedo refers to the reflectivity of a surface, with values ranging from 0 (absorbs all light) to 1 (reflects all light). Mirrors typically have a high albedo as they reflect a significant amount of light.
Low albedo indicates that a surface has a lower ability to reflect sunlight. This means that the surface absorbs more sunlight and heats up more quickly compared to a surface with a higher albedo.
A planet's reflectivity is called its albedo, which is a measure of how much sunlight is reflected by the planet's surface. A high albedo means more light is reflected, while a low albedo means more light is absorbed. Albedo can affect a planet's climate by influencing its temperature.
It means that low radiation is reflected by a or its surface.
This is called the "albedo." It is the ratio of reflected light compared to incident light, and depends on the surface material and its condition (e.g. snow, grassland).
Water surfaces typically have a low albedo, as they reflect only a small portion of incoming sunlight. This is why bodies of water can absorb and retain heat, contributing to warmer temperatures in the surrounding areas.