Sign up to save your podcasts
Or
Share Cry From the Sky
Share to email
Share to Facebook
Share to X
Share to email
Share to Facebook
Share to X
Or
Cry From the Sky
Cry-From-the-Sky-Best-Of.mp3
Cry-From-the-Sky-Best-Of.mp4
Cry-From-the-Sky.mp3
Cry-From-the-Sky.mp4
Cry-From-the-Sky-intro.mp3
[Intro]
Ahhhh, ahhhh, ahhhhh
(I, I, I)
Cry from the sky
[Verse 1]
Waiting for a sign
(Waiting a long time)
Oh, please let us know
(Which way we should go)
[Chorus]
As it happened
(The skies opened)
A thundercloud
(Screaming out loud)
[Bridge]
Ahhhh, ahhhh, ahhhhh
(I, I, I)
Cry from the sky
[Verse 2]
A miraculous event
(As to how our money’s spent)
Oh, some signs can you show
(God, let us know….)
[Chorus]
As it happened
(The skies opened)
A thundercloud
(Screaming out loud)
[Outro]
Ahhhh, ahhhh, ahhhhh
(I, I, I)
Cry from the sky
(You wanted a sign)
… fine!
(Now you’ve come to now)
It’s time we go
ABOUT THE SONG
Hurricane Melissa recorded a 252 mph wind gust, which shatters the previous highest record of 248 mph from Typhoon Megi in 2010, according to UCAR.
If you’re interested in flow dynamics… this is the highest verified hurricane wind speed ever recorded on Earth*.
Climate change is increasing both the frequency and the intensity of extreme systems because the added thermal energy in the climate system does not stay as “heat” — it expresses itself through non-linear atmospheric dynamics. Warmer oceans load storms with more latent heat, more moisture, and stronger pressure gradients. That extra energy then appears as faster wind velocities, more violent updrafts, tighter eyewalls, and explosive rapid intensification cycles that didn’t occur at today’s frequency in the past.
In other words, we aren’t just “warming the air.”
We’re supercharging the fundamental physics of storms — momentum, turbulence, vorticity, and flow — which is why records like this are being broken more often and with greater severity.
* The Physics Behind the 252-mph Gust: Why Hurricane Melissa Signals a New Era of Extreme Storms
Our climate model — which incorporates complex social-ecological feedback loops within a dynamic, non-linear system — projects that global temperatures could rise by up to 9°C (16.2°F) within this century. This far exceeds earlier estimates of a 4°C rise over the next thousand years, signaling a dramatic acceleration of warming.
We analyze how human activities (such as deforestation, fossil fuel use, and land development) interact with ecological processes (including carbon cycling, water availability, and biodiversity loss) in ways that amplify one another. These interactions do not follow simple cause-and-effect patterns; instead, they create cascading, interconnected impacts that can rapidly accelerate system-wide change, sometimes abruptly. Understanding these dynamics is essential for assessing risks and designing effective climate adaptation and mitigation strategies.
Disease vectors, violent rain, and deadly humid heat are driving an exponential rise in climate-related deaths. This lethal triad–infectious disease, extreme heat, and intense rainfall–demonstrates that climate change is not a distant concern but a present, accelerating force behind rising mortality worldwide. Together, these threats magnify each other’s impacts, underscoring the urgent need to address climate change as a health crisis already unfolding.
Tipping points and feedback loops drive the acceleration of climate change. When one tipping point is toppled and triggers others, the cascading collapse is known as the Domino Effect.
The Human Induced Climate Change Experiment
From the album “That’s Loud“
View all episodes
By Cry-From-the-Sky-Best-Of.mp3
Cry-From-the-Sky-Best-Of.mp4
Cry-From-the-Sky.mp3
Cry-From-the-Sky.mp4
Cry-From-the-Sky-intro.mp3
[Intro]
Ahhhh, ahhhh, ahhhhh
(I, I, I)
Cry from the sky
[Verse 1]
Waiting for a sign
(Waiting a long time)
Oh, please let us know
(Which way we should go)
[Chorus]
As it happened
(The skies opened)
A thundercloud
(Screaming out loud)
[Bridge]
Ahhhh, ahhhh, ahhhhh
(I, I, I)
Cry from the sky
[Verse 2]
A miraculous event
(As to how our money’s spent)
Oh, some signs can you show
(God, let us know….)
[Chorus]
As it happened
(The skies opened)
A thundercloud
(Screaming out loud)
[Outro]
Ahhhh, ahhhh, ahhhhh
(I, I, I)
Cry from the sky
(You wanted a sign)
… fine!
(Now you’ve come to now)
It’s time we go
ABOUT THE SONG
Hurricane Melissa recorded a 252 mph wind gust, which shatters the previous highest record of 248 mph from Typhoon Megi in 2010, according to UCAR.
If you’re interested in flow dynamics… this is the highest verified hurricane wind speed ever recorded on Earth*.
Climate change is increasing both the frequency and the intensity of extreme systems because the added thermal energy in the climate system does not stay as “heat” — it expresses itself through non-linear atmospheric dynamics. Warmer oceans load storms with more latent heat, more moisture, and stronger pressure gradients. That extra energy then appears as faster wind velocities, more violent updrafts, tighter eyewalls, and explosive rapid intensification cycles that didn’t occur at today’s frequency in the past.
In other words, we aren’t just “warming the air.”
We’re supercharging the fundamental physics of storms — momentum, turbulence, vorticity, and flow — which is why records like this are being broken more often and with greater severity.
* The Physics Behind the 252-mph Gust: Why Hurricane Melissa Signals a New Era of Extreme Storms
Our climate model — which incorporates complex social-ecological feedback loops within a dynamic, non-linear system — projects that global temperatures could rise by up to 9°C (16.2°F) within this century. This far exceeds earlier estimates of a 4°C rise over the next thousand years, signaling a dramatic acceleration of warming.
We analyze how human activities (such as deforestation, fossil fuel use, and land development) interact with ecological processes (including carbon cycling, water availability, and biodiversity loss) in ways that amplify one another. These interactions do not follow simple cause-and-effect patterns; instead, they create cascading, interconnected impacts that can rapidly accelerate system-wide change, sometimes abruptly. Understanding these dynamics is essential for assessing risks and designing effective climate adaptation and mitigation strategies.
Disease vectors, violent rain, and deadly humid heat are driving an exponential rise in climate-related deaths. This lethal triad–infectious disease, extreme heat, and intense rainfall–demonstrates that climate change is not a distant concern but a present, accelerating force behind rising mortality worldwide. Together, these threats magnify each other’s impacts, underscoring the urgent need to address climate change as a health crisis already unfolding.
Tipping points and feedback loops drive the acceleration of climate change. When one tipping point is toppled and triggers others, the cascading collapse is known as the Domino Effect.
The Human Induced Climate Change Experiment
From the album “That’s Loud“