Yes, lightning can appear to strike upwards in certain situations, such as when it branches out from a tall object or when it is influenced by strong winds.
Lightning going up, known as upward lightning, defies conventional expectations because it occurs when a lightning bolt originates from the ground and travels upwards towards the sky, which is opposite to the usual downward trajectory of lightning bolts from the sky to the ground. This phenomenon challenges the typical understanding of how lightning behaves and highlights the complex and dynamic nature of atmospheric electricity.
No, lightning does not strike upwards. Lightning typically strikes downwards from the clouds to the ground.
Lightning travels both upwards and downwards in the atmosphere.
Yes, lightning can travel both upwards and downwards in the atmosphere.
No, it isn't. If you mean slip as in 'fall over', then no. The correct world would be 'slide'.
Lightning going up, known as upward lightning, defies conventional expectations because it occurs when a lightning bolt originates from the ground and travels upwards towards the sky, which is opposite to the usual downward trajectory of lightning bolts from the sky to the ground. This phenomenon challenges the typical understanding of how lightning behaves and highlights the complex and dynamic nature of atmospheric electricity.
No, lightning does not strike upwards. Lightning typically strikes downwards from the clouds to the ground.
Lightning travels both up and down. It typically originates from the ground and travels upwards to meet the downward-moving charge from the clouds. This forms a visible lightning bolt.
Lightning travels both upwards and downwards in the atmosphere.
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No. Only downward and to the right.
Yes, lightning can travel both upwards and downwards in the atmosphere.
The upward force is called lift, while the downward force is called weight or gravity.
The highest point is the point where the ball's velocity transitions from upward to downward. At that instant, the ball's speed, velocity, momentum, and kinetic energy are all exactly zero.
The load will move upwards.
The velocity of such an object changes all the time. Assuming you throw something directly upwards and there is no wind, it will go upwards, slower and slower, until it reaches its highest point. At that moment, its velocity is zero. Then, still as a result of gravity, it will move downward, faster and faster.
No, it isn't. If you mean slip as in 'fall over', then no. The correct world would be 'slide'.