Deutsch
Français
Español
Italiano
Português
中文
日本語
Русский
Türkçe
Johnny Depp LIVE LOS ANGELES WEATHER FIRE AST From Serbia
Duration: 0:13
Views: 29
Submitted: 3 months ago
Submitted by:
Description:
Sponsored by Stateless Warrior
And what does Mathematical analysis indicate?
That your American building engineering codes suck ass cause they were drafted by craftsmen and lumberjacks not mathematicians l!
Elaborate?
As long as you have a V-Pitch roof, your American house structures are basically match ones but if you stupid Americanos revamp your building codes and make them flat, house barbecue will Come to an end as long as you have a few linear feet of gravel all around LOAD bearing walls…
You are boring me with your half assed engineering…
What about exterior wall surface?
Certain exterior building materials are known for their fire-resistant properties. Here are some that cannot burn in fire:
1. **Brick**: Made from clay or shale, brick is non-combustible and provides excellent fire resistance.
2. **Concrete**: Similar to brick, concrete is made from cement, water, and aggregates. It does not burn and can withstand high temperatures.
3. **Steel**: While steel can lose strength in extreme heat, it does not burn, making it a common choice for structural elements.
4. **Stone**: Natural stones like granite and limestone are non-combustible and do not ignite.
5. **Fiber Cement**: This composite material consists of cement, sand, and cellulose fibers, offering fire resistance without burning.
6. **Stucco**: Typically made from cement, sand, and lime, stucco is non-combustible and provides good fire protection.
7. **Glass**: Certain types of tempered or fire-rated glass can withstand high temperatures without burning.
8. **Metal Siding**: Materials like aluminum and galvanized steel are non-combustible and often used for exterior cladding.
These materials are commonly used in construction to enhance fire safety and meet building codes and can through proper structure engineering make any structure fireproof, but flat roof is a must unless you want ashes and dust?’ While you government trust…
No?
And you want to colonize cellestial bodies?
lol!
You can’t even get Earthly dwelling engineered correctly you low, low, low, IQ’d retards so let’s analyze ‘Fire behavior” under a V-shaped roof ya’ll typically have on your half assed engineered Americano Casita’s which can be influenced by several factors I am keenly aware of — thank you — including airflow, heat distribution, and the materials involved so here is how fire can catch and move in such a scenario:
1. **Airflow Dynamics**: The V-shape can create a flue effect, where hot air rises and is funneled towards the peak of the roof. This can create strong upward drafts, which may help to spread the fire more quickly.
2. **Heat Accumulation**: As the fire burns, it generates heat that rises. In a V-shaped roof, the heat can become concentrated at the apex, which may raise the temperature of nearby combustible materials.
3. **Radiant Heat**: The intense heat from the fire can radiate to surrounding surfaces and materials, igniting them. This is particularly true if there are any flammable materials or debris in the roof structure or attic space.
4. **Ventilation**: Openings in the roof, such as vents or gaps, can allow oxygen to enter, fueling the fire. The shape of the roof can enhance wind effects, further increasing oxygen supply and potentially accelerating fire spread.
5. **Fire Spread**: If the fire ignites materials along the lower edges of the roof, it can spread upwards along the slope. The steep angle may facilitate the movement of flames, especially if there are combustible materials present.
6. **Convection Currents**: The rising hot air can create convection currents that pull cooler air into the lower parts of the roof, which can also help to spread the fire by bringing in more oxygen.
7. **Material Composition**: The materials used in the roofing and the structure beneath can significantly affect fire behavior. Non-combustible materials may slow the spread, while combustible materials can exacerbate it.
And now idiots against my SPACE ENGINEERING GRADE EARTHLY DWELLING zip your stupid mouths unless you can top my engineering as the unique shape of at typical American residential dwelling’s V-shaped roof DOES create an environment that enhances airflow, concentrates heat, and facilitates fire spread, making it crucial to consider fire-resistant materials I outlined and designs that are FLAT in such constructions would altogether make your house fires ANCIENT HISTORY cause even one thousand firefighter response scenario ain’t gonnuh do you any good in 80+ mph wind gusts so lemme ask you Americans the following question;
When will you stupid fucks STOP engineering witchuh asses cause Earth’s surface is going to exponentially increase in temp’s and these fires will be an everyday occurrence unless you reengineer your Earthly dwellings CORRECTLY to make them IMPOSSIBLE TO BURN!
Now WHY would that be PIVOTAL if NOT imperative for you Americans? Lemme break it down mathematically for you a quickie back if the napkin mental calculation for me whilst on papuh for you so you can run my data for comparative analysis purposes against those Of your best American scientists and or mathematicians.. Shall we? Assuming the continuation of current trends of you Americans and your penchant for gutting the fuckin atmosphere and depending on emissions scenarios, your U.S. could see temperature increases ranging from 1.5 to 4.5 degrees Celsius (2.7 to 8.1 degrees Fahrenheit) by 2100 EASILY and now on to my personal Projections for 500 years into the future which can vary widely, but they will exceed 5 degrees Celsius (9 degrees Fahrenheit) under your CURRENT AMERIKKKAN high-emission scenarios.
*Stateless Warrior Formula for Temperature Projection REVEAL in detail;
To model temperature increase over time, my approach is to apply the following formula based on the concept of climate sensitivity and “radiative forcing:”
\[
T(t) = T_0 + \Delta T \cdot \frac{1 - e^{-\lambda t}}{\lambda}
\]
Where:
- \( T(t) \) = projected AmeriKKKan SURFACE temperature at time \( t \)
- \( T_0 \) = initial temperature (baseline average temperature)
- \( \Delta T \) = equilibrium temperature increase due to doubled CO2 levels (commonly around 3°C) cause you are HANITUAL POLLUTERS and it even take TESLA eight years of use to offset carbon pollutants generated during production (DUH!) you suck!
- \( \lambda \) = response time constant
- \( e \) = base of the natural logarithm
- \( t \) = time in years
And now that I revealed, which one of your brightest Mathmeticians erroneously believes that they can beat my analytics on planet Earth, Space, or lunar surface — lol!
Why don’t you go to doing what you do best like running like little bitches every time there is a fire so I could LFAO!
And what does Mathematical analysis indicate?
That your American building engineering codes suck ass cause they were drafted by craftsmen and lumberjacks not mathematicians l!
Elaborate?
As long as you have a V-Pitch roof, your American house structures are basically match ones but if you stupid Americanos revamp your building codes and make them flat, house barbecue will Come to an end as long as you have a few linear feet of gravel all around LOAD bearing walls…
You are boring me with your half assed engineering…
What about exterior wall surface?
Certain exterior building materials are known for their fire-resistant properties. Here are some that cannot burn in fire:
1. **Brick**: Made from clay or shale, brick is non-combustible and provides excellent fire resistance.
2. **Concrete**: Similar to brick, concrete is made from cement, water, and aggregates. It does not burn and can withstand high temperatures.
3. **Steel**: While steel can lose strength in extreme heat, it does not burn, making it a common choice for structural elements.
4. **Stone**: Natural stones like granite and limestone are non-combustible and do not ignite.
5. **Fiber Cement**: This composite material consists of cement, sand, and cellulose fibers, offering fire resistance without burning.
6. **Stucco**: Typically made from cement, sand, and lime, stucco is non-combustible and provides good fire protection.
7. **Glass**: Certain types of tempered or fire-rated glass can withstand high temperatures without burning.
8. **Metal Siding**: Materials like aluminum and galvanized steel are non-combustible and often used for exterior cladding.
These materials are commonly used in construction to enhance fire safety and meet building codes and can through proper structure engineering make any structure fireproof, but flat roof is a must unless you want ashes and dust?’ While you government trust…
No?
And you want to colonize cellestial bodies?
lol!
You can’t even get Earthly dwelling engineered correctly you low, low, low, IQ’d retards so let’s analyze ‘Fire behavior” under a V-shaped roof ya’ll typically have on your half assed engineered Americano Casita’s which can be influenced by several factors I am keenly aware of — thank you — including airflow, heat distribution, and the materials involved so here is how fire can catch and move in such a scenario:
1. **Airflow Dynamics**: The V-shape can create a flue effect, where hot air rises and is funneled towards the peak of the roof. This can create strong upward drafts, which may help to spread the fire more quickly.
2. **Heat Accumulation**: As the fire burns, it generates heat that rises. In a V-shaped roof, the heat can become concentrated at the apex, which may raise the temperature of nearby combustible materials.
3. **Radiant Heat**: The intense heat from the fire can radiate to surrounding surfaces and materials, igniting them. This is particularly true if there are any flammable materials or debris in the roof structure or attic space.
4. **Ventilation**: Openings in the roof, such as vents or gaps, can allow oxygen to enter, fueling the fire. The shape of the roof can enhance wind effects, further increasing oxygen supply and potentially accelerating fire spread.
5. **Fire Spread**: If the fire ignites materials along the lower edges of the roof, it can spread upwards along the slope. The steep angle may facilitate the movement of flames, especially if there are combustible materials present.
6. **Convection Currents**: The rising hot air can create convection currents that pull cooler air into the lower parts of the roof, which can also help to spread the fire by bringing in more oxygen.
7. **Material Composition**: The materials used in the roofing and the structure beneath can significantly affect fire behavior. Non-combustible materials may slow the spread, while combustible materials can exacerbate it.
And now idiots against my SPACE ENGINEERING GRADE EARTHLY DWELLING zip your stupid mouths unless you can top my engineering as the unique shape of at typical American residential dwelling’s V-shaped roof DOES create an environment that enhances airflow, concentrates heat, and facilitates fire spread, making it crucial to consider fire-resistant materials I outlined and designs that are FLAT in such constructions would altogether make your house fires ANCIENT HISTORY cause even one thousand firefighter response scenario ain’t gonnuh do you any good in 80+ mph wind gusts so lemme ask you Americans the following question;
When will you stupid fucks STOP engineering witchuh asses cause Earth’s surface is going to exponentially increase in temp’s and these fires will be an everyday occurrence unless you reengineer your Earthly dwellings CORRECTLY to make them IMPOSSIBLE TO BURN!
Now WHY would that be PIVOTAL if NOT imperative for you Americans? Lemme break it down mathematically for you a quickie back if the napkin mental calculation for me whilst on papuh for you so you can run my data for comparative analysis purposes against those Of your best American scientists and or mathematicians.. Shall we? Assuming the continuation of current trends of you Americans and your penchant for gutting the fuckin atmosphere and depending on emissions scenarios, your U.S. could see temperature increases ranging from 1.5 to 4.5 degrees Celsius (2.7 to 8.1 degrees Fahrenheit) by 2100 EASILY and now on to my personal Projections for 500 years into the future which can vary widely, but they will exceed 5 degrees Celsius (9 degrees Fahrenheit) under your CURRENT AMERIKKKAN high-emission scenarios.
*Stateless Warrior Formula for Temperature Projection REVEAL in detail;
To model temperature increase over time, my approach is to apply the following formula based on the concept of climate sensitivity and “radiative forcing:”
\[
T(t) = T_0 + \Delta T \cdot \frac{1 - e^{-\lambda t}}{\lambda}
\]
Where:
- \( T(t) \) = projected AmeriKKKan SURFACE temperature at time \( t \)
- \( T_0 \) = initial temperature (baseline average temperature)
- \( \Delta T \) = equilibrium temperature increase due to doubled CO2 levels (commonly around 3°C) cause you are HANITUAL POLLUTERS and it even take TESLA eight years of use to offset carbon pollutants generated during production (DUH!) you suck!
- \( \lambda \) = response time constant
- \( e \) = base of the natural logarithm
- \( t \) = time in years
And now that I revealed, which one of your brightest Mathmeticians erroneously believes that they can beat my analytics on planet Earth, Space, or lunar surface — lol!
Why don’t you go to doing what you do best like running like little bitches every time there is a fire so I could LFAO!
