Column reference

Every column in the forecast table, in plain language.

Depending on the profile you choose, SunScope surfaces a different set of columns — but they all draw on the same per-hour weather data. You can also hover or tap any column header in the app for the same description. Every column is listed below.

ColumnWhat it shows
Air °CStandard air temperature at 2 m above ground — the thermometer reading. Does not account for sun, wind, or humidity.
Shade Air °CEstimated air temperature sitting in the typical shade of the selected Solar Model — building shadow, beach umbrella, tree canopy, boat panels, and so on. Sheltered, sun-warmed surroundings push it above the official open-ground Air figure on calm sunny hours; wind and cloud pull it back toward it. An estimate, not a measurement, and different from the standardised 2 m Air reading.
RH %Relative humidity: how much moisture the air holds as a percentage of its maximum capacity at that temperature. High RH makes warm days feel stickier and cold days feel rawer.
Dew PointThe temperature at which air becomes saturated and moisture begins to condense. Above 16 °C it starts to feel muggy; above 21 °C it feels oppressive. A better measure of absolute humidity than RH.
WindMean wind speed at 10 m in mph, with peak gust in brackets where significantly higher. Gust colour follows the Beaufort scale: amber = Near Gale (32+ mph), orange = Gale (39+ mph), red = Severe Gale or above (55+ mph). Banners above the table classify conditions from Strong Breeze through to Violent Storm. Wind is the primary driver of wind chill.
DirThe compass direction the wind is blowing from, shown as an arrow and abbreviated label. Useful for route planning and spray timing.
CloudTotal cloud cover as a percentage of sky. High cloud blocks solar radiation, reducing daytime heating and overnight cooling.
Sun °The angle of the sun above the horizon in degrees. Below 0° the sun has set. The higher the elevation, the more intense the radiation reaching the ground.
Direct W/m²Shortwave solar radiation arriving as a direct beam from the sun. The primary driver of skin heating on sunny days.
Diffuse W/m²Solar radiation scattered from all directions across the sky. Present even under cloud cover; contributes to the overall solar heat load.
Tmrt °CMean Radiant Temperature — the combined heat from direct sun, scattered sky light, and ground reflection expressed as a temperature. Can exceed air temperature by 20–30 °C on a sunny day; this is why shade feels so much cooler, and it is one of the inputs to UTCI.
UTCI−Air ΔThe gap between the UTCI felt temperature and the plain air temperature. A large positive value means solar radiation is adding significant heat stress beyond what the thermometer shows.
UTCI °CUniversal Thermal Climate Index — the raw felt temperature combining air temp, humidity, wind, and solar radiation. Does not include precipitation effects.
UV-AEstimated UV-A radiation index. UV-A penetrates deeper into the skin and contributes to long-term ageing and some skin cancers, even through glass. Present throughout daylight hours.
UV-BEstimated UV-B radiation index. Causes sunburn and drives vitamin D production. Intensity depends strongly on solar elevation and cloud cover, falling sharply at low sun angles.
Burn timeEstimated time to reach one Minimal Erythemal Dose (MED) — the threshold for sunburn — based on the UV index and your selected Fitzpatrick skin type (chosen from a dropdown in the column bar). A guide, not a medical measurement.
SunSoak °CSunScope's signature felt-temperature index. Starts from UTCI then adds three layers: a rain and snow penalty (wet clothing can drop felt temperature by up to 8 °C), a Solar Model for where you actually are (forest, alpine, beach, river, open water, desert), and full mean radiant temperature from surrounding surfaces. The most honest single answer to: what will it actually feel like out there?
Precip mmExpected rainfall in mm per hour; snowfall is shown in cm. Even light drizzle meaningfully reduces felt temperature when combined with wind.
Rain %Probability of precipitation for this hour (0–100%), derived from Open-Meteo ensemble model runs. A high value means rain is likely even if the expected rate is low — useful for spotting showers the deterministic forecast may miss.
LightningLightning Potential Index (LPI) from Open-Meteo in J/kg — a convective energy index. Values above 5 suggest moderate lightning risk, above 25 suggest high risk.
Soil °C surfaceTemperature of the soil at the surface (0 cm depth). Most seeds germinate above 7–10 °C. Useful for sowing decisions and frost assessment.
Soil °C 6 cmSoil temperature at 6 cm depth — the root zone for many crops and seedlings. Lags behind the surface by several hours.
Soil moistureWater saturation of the top 1 cm of soil as a percentage. Above 40% indicates saturated ground; below 20% is dry. Useful for assessing whether ground is workable, and for motorhome or caravan pitch suitability.
Concrete °CEstimated temperature of sun-exposed urban paving. Concrete absorbs more solar energy than grass and cannot cool itself through evaporation — surface temps can run 15–25 °C above air temperature on sunny days. See derived temperatures.
Vehicle °CEstimated ambient cabin temperature inside a sealed, parked vehicle — adjusted for your chosen vehicle type. Values above 35 °C are dangerous for children and pets; above 45 °C potentially fatal within minutes. See derived temperatures.
Indoors °CEstimated temperature inside a building with windows closed and no active cooling. Select your building type from the dropdown — brick, modern insulated, Victorian terrace, stone cottage, timber frame, top-floor flat, or conservatory. Indoor peak typically lags the outdoor peak by 2–4 hours due to thermal mass.
Managed °CThe same building model with two interventions: curtains closed by day to block solar gain, and windows opened whenever outdoor air is cooler than inside — the standard UK heatwave advice. Toggle with the Managed tick next to the building dropdown.
Visibility kmHorizontal visibility in kilometres, sourced from the Copernicus CAMS air quality model. Below 1 km indicates fog or very thick haze; below 10 km suggests mist, smoke, or significant pollution. Relevant for driving, flying, cycling, and photography.
AQIEuropean Air Quality Index (0–100+), combining PM2.5, PM10, ozone, nitrogen dioxide, and sulphur dioxide. 0–20 = Good; 20–40 = Fair; 40–60 = Moderate; 60–80 = Poor; 80–100 = Very Poor; 100+ = Extremely Poor. Sourced from Copernicus CAMS.
PollenPollen concentration in grains per cubic metre for the selected pollen type — choose from total, grass, birch, alder, mugwort, olive, or ragweed via the dropdown. Sourced from the Copernicus CAMS pollen forecast. Low = <10; Moderate = 10–50; High = 50–200; Very High = 200+.

Several columns build on the SunSoak model or a physics estimate — see SunSoak & the science for the felt-temperature calculation and derived temperatures for the vehicle, indoor, and concrete models.