@TUSHAR-Naik Unfortunately, I’m not familiar with the specific characteristics of your region, but I suspect the terrain might be a contributing factor. For a thunderstorm to form, the atmosphere typically needs to exhibit unstable temperature stratification and high humidity—which your area likely has. However, one crucial element is still missing: a triggering mechanism. This could be a weather front, atmospheric convergence, or mountainous terrain, all of which can initiate the upward motion of air. This rising air then develops into an updraft, which is essential for the formation of a thunderstorm. To predict a storm is thus not very simple. Have a nice day, Niki

@TUSHAR-Naik https://community.windy.com/topic/40018/wind?_=1747505354958

Certainly, because according to research, the strong wind convergence zone at the 700 hPa level combined with the low pressure trough caused heavy rain and strong thunderstorms.

@TUSHAR-Naik The time the air temperature over land gets higher than the air temperature over sea. Usually at local 11 am. You can see it in surface wind map on a coastal area.

@Suty yes

The bottom line is - should the outside air temperature decrease to equal the "dew point" temperature, dew will form on grass or leaves. Should the dew point temperature be the same as the outdoor air temperature, the air is 100% saturated with moisture. Theoretically the air can't hold any more moisture. Should more moisture moves in or the out door temperature decreases then either clouds or fog will form - moisture droplets become visible. From there, should even more moisture advect in or the air temperature falls (cools even more) visible tinny moisture droplets will increase in size and eventually become so heavy, they will fall to the ground as rain.

@TUSHAR-Naik Air rises, cools and water vapour condenses onto particles to form water droplets, these water droplets can coalesce (merge together) and get bigger, then they fall. This can be a BIG question. I suggest some free courses or resources to help you learn more about weather. Here are two resources I used when I first started learning: https://www.meted.ucar.edu/index.php https://www.theweatherprediction.com/

@TUSHAR-Naik https://www.nssl.noaa.gov/education/svrwx101/thunderstorms/

@TUSHAR-Naik Also, read ... https://community.windy.com/post/26433

@TUSHAR-Naik On the map, you can't identify where is West and where is East?

@TUSHAR-Naik hPa stands for hectoPascal. Is a unit of (atmospheric) pressure equal to a millibar. Standard pressure at sea level is 1013hPa. 850 hPa lies at aprox. 5000ft (1500m high) ... 700 hPa at 10000ft etc

@TUSHAR-Naik It could. Specially in convective weather with enough humidity. To check it where there are converging winds, switch to Rain layer to see if the model predicts some rain or thunderstorms in the same area. The picture of converging winds that I provided was in a desert, so there was no chance of rain. At the moment in Louisiana there are strong thunderstorms [image: 1743422638632-0da2750c-0d89-467d-8310-0a7a3b767b88.jpeg] And there are areas of converging winds at surface and at 850hPa [image: 1743423367746-04ca67c7-670b-4422-a20f-7f4c36360351.jpeg] [image: 1743423378510-f53169c8-c072-4d37-9fd6-57db2c7ad1dc.jpeg]