hail
Rain will fall when the air temperature is above freezing.
With a ground air temperature of 14°C, the precipitation falling from cumulonimbus clouds is likely to be rain. Cumulonimbus clouds are associated with thunderstorms and can produce heavy rainfall, often with varying intensity. If the temperature remains above freezing, any precipitation would typically fall as liquid rain rather than snow or ice.
The form of precipitation that occurs when there is above-freezing air inside a cloud and freezing air beneath it is known as freezing rain. In this scenario, rain droplets fall from the cloud as liquid water but freeze upon contact with surfaces that are below freezing, resulting in a layer of ice. This can create hazardous conditions, such as slippery roads and ice accumulation on power lines and trees.
That would depend on the intensity of the incoming solar radiation ... essentially the planet's distance from the sun ... as well as on the size of the planet, which determines its total absorption area. Mercury doesn't have to absorb sunshine as effectively as Pluto does, in order to maintain any given surface temperature. (You didn't say the "freezing point" of what ?)
To determine if the temperature above the ground is above or below a specific degree Celsius, you need to provide a specific temperature value for comparison. Generally, temperatures can vary widely based on location, time of year, and weather conditions. If you have a specific temperature in mind, please share it for a more precise answer.
If the temperature is above freezing, precipitation would likely fall as rain. Snow and sleet typically occur when temperatures are at or below freezing.
Rain will fall when the air temperature is above freezing.
Sleet
The temperature of the air near the ground is the main factor in determining whether precipitation falls as rain or snow. If the temperature is above freezing, the precipitation will fall as rain. If the temperature is below freezing, the precipitation will fall as snow.
At a temperature of 3°C, precipitation typically falls as rain. However, if the temperature is close to freezing and conditions are right, it could also fall as sleet or freezing rain, especially if there is a layer of warmer air above a cold surface. Snow is less likely at this temperature but can occur if the temperature drops slightly or if the atmospheric conditions are suitable.
What form of precipitation falls to earth mainly depends on the?
The temperature of the atmosphere is the primary factor that determines whether precipitation falls as a liquid or a solid. Precipitation will fall as rain when the temperature is above freezing and as snow when the temperature is below freezing. Other factors, such as humidity and the presence of ice nuclei, can also influence the type of precipitation.
Rain occurs when the temperature is above freezing both in the clouds and at the ground level. If the temperature in the clouds is below freezing but at the ground level it is above freezing, sleet or freezing rain may occur.
The form of precipitation—liquid or solid—primarily depends on the temperature profile of the atmosphere between the cloud base and the ground. If temperatures are above freezing throughout this layer, precipitation falls as rain. Conversely, if temperatures are below freezing, precipitation will likely fall as snow, sleet, or hail, depending on the specific conditions within the atmosphere. Additionally, the rate at which the temperature changes with altitude can also influence the type of precipitation that occurs.
With a ground air temperature of 14°C, the precipitation falling from cumulonimbus clouds is likely to be rain. Cumulonimbus clouds are associated with thunderstorms and can produce heavy rainfall, often with varying intensity. If the temperature remains above freezing, any precipitation would typically fall as liquid rain rather than snow or ice.
When a material is melting, the temperature is likely to be increasing. That or the temperature is just above the material's melting/freezing point.
freezing rain. hail is caused by gusts of air repeatedly blowing precipitation back into the atmosphere, where it acquires a new layer of H2O. so in this case it is not likely to occur.