Add to ORKGThe electric fields in thunderstorms can exceed the breakdown value locally near ice particles present in thunderclouds. But are fields high enough and the regions large enough to initiate a streamer discharge? And where would a sufficient density of free electrons come from to start the discharge in the humid air that rapidly binds electrons in water-clusters
We derive that lightning can start if the electric field is 15% of the breakdown field, and if elong...
We derive that lightning can start if the electric field is 15% of the breakdown field, and if elong...
We derive that lightning can start if the electric field is 15% of the breakdown field, and if elong...
The electric fields in thunderstorms can exceed the breakdown value locally near ice pa...
The electric fields in thunderstorms can exceed the breakdown value locally near hydrometeors. But a...
The electric fields in thunderstorms can exceed the breakdown value locally near hydrometeors. But a...
The electric fields in thunderstorms can exceed the breakdown value locally near hydrometeors. But a...
The electric fields in thunderstorms can exceed the breakdown value locally near hydrometeors. But a...
The electric fields in thunderstorms can exceed the breakdown value locally near hydrometeors. But a...
The electric fields in thunderstorms can exceed the breakdown value locally near hydrometeors. But a...
We derive that lightning can start if the electric field is 15% of the breakdown field, and if elong...
We derive that lightning can start if the electric field is 15% of the breakdown field, and if elong...
We derive that lightning can start if the electric field is 15% of the breakdown field, and if elong...
We derive that lightning can start if the electric field is 15% of the breakdown field, and if elong...
We derive that lightning can start if the electric field is 15% of the breakdown field, and if elong...
We derive that lightning can start if the electric field is 15% of the breakdown field, and if elong...
We derive that lightning can start if the electric field is 15% of the breakdown field, and if elong...
We derive that lightning can start if the electric field is 15% of the breakdown field, and if elong...
The electric fields in thunderstorms can exceed the breakdown value locally near ice pa...
The electric fields in thunderstorms can exceed the breakdown value locally near hydrometeors. But a...
The electric fields in thunderstorms can exceed the breakdown value locally near hydrometeors. But a...
The electric fields in thunderstorms can exceed the breakdown value locally near hydrometeors. But a...
The electric fields in thunderstorms can exceed the breakdown value locally near hydrometeors. But a...
The electric fields in thunderstorms can exceed the breakdown value locally near hydrometeors. But a...
The electric fields in thunderstorms can exceed the breakdown value locally near hydrometeors. But a...
We derive that lightning can start if the electric field is 15% of the breakdown field, and if elong...
We derive that lightning can start if the electric field is 15% of the breakdown field, and if elong...
We derive that lightning can start if the electric field is 15% of the breakdown field, and if elong...
We derive that lightning can start if the electric field is 15% of the breakdown field, and if elong...
We derive that lightning can start if the electric field is 15% of the breakdown field, and if elong...
We derive that lightning can start if the electric field is 15% of the breakdown field, and if elong...
We derive that lightning can start if the electric field is 15% of the breakdown field, and if elong...
We derive that lightning can start if the electric field is 15% of the breakdown field, and if elong...