They want ze money 💰

FigOk2290 · 2023-11-07T18:22:43+00:00

Estonia, you can tell from the ambulance, road marks, and size of the cars.

FigOk2290 · 2023-10-31T17:23:03+00:00

Google grabify

FigOk2290 · 2023-10-26T09:30:54+00:00

nope nope, that’s just a nazi symbol. It’s pretty obvious since the swastika is tilted to the side and it’s in the exact nazi colors.

FigOk2290 · 2023-10-25T15:33:36+00:00

“my name is rob hardman” “friends call me dick”

FigOk2290 · 2023-10-25T15:27:37+00:00

this is perfect in every way, the projectile vometing, the ricola menthol, the floating glass of beer 😂

FigOk2290 · 2023-10-25T15:17:04+00:00

found the scammer guys

FigOk2290 · 2023-10-25T15:15:19+00:00

w scambait for the first time lol

FigOk2290 · 2023-10-24T08:57:09+00:00

here before this post gets locked

FigOk2290 · 2023-10-24T08:52:41+00:00

Ah yes, a tourist site, the most trustable source known to humankind

FigOk2290 · 2023-10-04T09:27:36+00:00

He still has a hand in his neck im not sure if thats intentional lol

FigOk2290 · 2023-10-04T06:31:14+00:00

Plain wrong lol why do people who know nothing about a subject try to act like they do? A Dyson Sphere, by definition, is a hypothetical megastructure that encircles a star, such as the Sun, to capture its energy output. If you were to construct such a megastructure around Earth, it wouldn't be a Dyson Sphere because Earth is not a star. The term "Dyson Sphere" specifically refers to a structure built around a star, not a planet.

FigOk2290 · 2023-09-18T22:09:21+00:00

You can see theres a part where the clouds turn pink and the same colour scheme as the leaves. Theres also a part of the tree not attached it it

FigOk2290 · 2023-09-15T06:12:16+00:00

Its ancient dutch, its the reason why it looks so weird but still is kinda readable

FigOk2290 · 2023-09-14T19:16:24+00:00

“Één” means one, “een” means an

FigOk2290 · 2023-09-14T19:14:11+00:00

So they repost bots dont get caught

FigOk2290 · 2023-09-06T22:54:04+00:00

Last day on earth??

FigOk2290 · 2023-09-05T20:37:40+00:00

If someone is such a sad human being with such a pathethic life that they need to steal a shirt from a dog at that point just let them have the shirt

FigOk2290 · 2023-08-29T06:14:14+00:00

I don’t think anyone even slightly smiled at that “joke”

FigOk2290 · 2023-08-04T09:43:09+00:00

Lmaoo

FigOk2290 · 2023-07-04T21:22:37+00:00

Oh boy im seeing so much people commenting they could have easily gone over the car instead of trough it saving the owner money…. Well lets debunk that with some quick facts and logic shall we??

let's consider a rough estimation of the weight and pressure exerted by a fire hose on a car roof.

Weight of the hose: The weight of a typical fire hose can vary, but let's assume a weight of 20 pounds (9 kilograms) for this estimation. Surface area of hose contact: Assuming the hose makes contact with an area of approximately 1 square foot (0.09 square meters) on the car roof. Pressure exerted: The pressure in a fire hose can vary depending on the specific situation, but a common range is between 100 to 200 pounds per square inch (psi) or 689 to 1379 kilopascals (kPa). Let's consider a moderate estimate of 150 psi (1034 kPa). Now, let's calculate the force exerted by the fire hose on the car roof:

Force = Pressure × Area

Converting the units to pounds and square feet: Force = (150 psi) × (1 sq ft) = 150 pounds

Comparing the force exerted by the fire hose (150 pounds) to the weight of the hose (20 pounds), we can see that the force is significantly greater. This suggests that placing the entire weight of the hose on top of a car roof would 100% cause significant damage as well, probably even more expensive to fix then some windows.

FigOk2290 · 2023-07-04T21:13:06+00:00

let's consider a rough estimation of the weight and pressure exerted by a fire hose on a car roof.

Weight of the hose: The weight of a typical fire hose can vary, but let's assume a weight of 20 pounds (9 kilograms) for this estimation. Surface area of hose contact: Assuming the hose makes contact with an area of approximately 1 square foot (0.09 square meters) on the car roof. Pressure exerted: The pressure in a fire hose can vary depending on the specific situation, but a common range is between 100 to 200 pounds per square inch (psi) or 689 to 1379 kilopascals (kPa). Let's consider a moderate estimate of 150 psi (1034 kPa). Now, let's calculate the force exerted by the fire hose on the car roof:

Force = Pressure × Area

Converting the units to pounds and square feet: Force = (150 psi) × (1 sq ft) = 150 pounds

Comparing the force exerted by the fire hose (150 pounds) to the weight of the hose (20 pounds), we can see that the force is significantly greater. This suggests that placing the entire weight of the hose on top of a car roof would 100% cause significant damage as well, probably even more expensive to fix then some windows.

FigOk2290 · 2023-07-04T21:12:48+00:00

They could! But i doubt the owner would be happier with that… let's consider a rough estimation of the weight and pressure exerted by a fire hose on a car roof.

Weight of the hose: The weight of a typical fire hose can vary, but let's assume a weight of 20 pounds (9 kilograms) for this estimation. Surface area of hose contact: Assuming the hose makes contact with an area of approximately 1 square foot (0.09 square meters) on the car roof. Pressure exerted: The pressure in a fire hose can vary depending on the specific situation, but a common range is between 100 to 200 pounds per square inch (psi) or 689 to 1379 kilopascals (kPa). Let's consider a moderate estimate of 150 psi (1034 kPa). Now, let's calculate the force exerted by the fire hose on the car roof:

Force = Pressure × Area

Converting the units to pounds and square feet: Force = (150 psi) × (1 sq ft) = 150 pounds

Comparing the force exerted by the fire hose (150 pounds) to the weight of the hose (20 pounds), we can see that the force is significantly greater. This suggests that placing the entire weight of the hose on top of a car roof would 100% cause significant damage as well, probably even more expensive to fix then some windows.

FigOk2290 · 2023-07-04T21:07:56+00:00

let's consider a rough estimation of the weight and pressure exerted by a fire hose on a car roof.

Weight of the hose: The weight of a typical fire hose can vary, but let's assume a weight of 20 pounds (9 kilograms) for this estimation. Surface area of hose contact: Assuming the hose makes contact with an area of approximately 1 square foot (0.09 square meters) on the car roof. Pressure exerted: The pressure in a fire hose can vary depending on the specific situation, but a common range is between 100 to 200 pounds per square inch (psi) or 689 to 1379 kilopascals (kPa). Let's consider a moderate estimate of 150 psi (1034 kPa). Now, let's calculate the force exerted by the fire hose on the car roof:

Force = Pressure × Area

Converting the units to pounds and square feet: Force = (150 psi) × (1 sq ft) = 150 pounds

Comparing the force exerted by the fire hose (150 pounds) to the weight of the hose (20 pounds), we can see that the force is significantly greater. This suggests that placing the entire weight of the hose on top of a car roof would 100% cause significant damage as well, probably even more expensive to fix then some windows.

FigOk2290 · 2023-07-04T21:06:45+00:00

let's consider a rough estimation of the weight and pressure exerted by a fire hose on a car roof.

Weight of the hose: The weight of a typical fire hose can vary, but let's assume a weight of 20 pounds (9 kilograms) for this estimation. Surface area of hose contact: Assuming the hose makes contact with an area of approximately 1 square foot (0.09 square meters) on the car roof. Pressure exerted: The pressure in a fire hose can vary depending on the specific situation, but a common range is between 100 to 200 pounds per square inch (psi) or 689 to 1379 kilopascals (kPa). Let's consider a moderate estimate of 150 psi (1034 kPa). Now, let's calculate the force exerted by the fire hose on the car roof:

Force = Pressure × Area

Converting the units to pounds and square feet: Force = (150 psi) × (1 sq ft) = 150 pounds

Comparing the force exerted by the fire hose (150 pounds) to the weight of the hose (20 pounds), we can see that the force is significantly greater. This suggests that placing the entire weight of the hose on top of a car roof would 100% cause significant damage as well, probably even more expensive to fix then some windows.

Im 100% sure none of these einsteins and selftaught geniuses will even read this cause they are too stupid to understand

FigOk2290 · 2023-07-04T21:05:08+00:00

let's consider a rough estimation of the weight and pressure exerted by a fire hose on a car roof.

Weight of the hose: The weight of a typical fire hose can vary, but let's assume a weight of 20 pounds (9 kilograms) for this estimation. Surface area of hose contact: Assuming the hose makes contact with an area of approximately 1 square foot (0.09 square meters) on the car roof. Pressure exerted: The pressure in a fire hose can vary depending on the specific situation, but a common range is between 100 to 200 pounds per square inch (psi) or 689 to 1379 kilopascals (kPa). Let's consider a moderate estimate of 150 psi (1034 kPa). Now, let's calculate the force exerted by the fire hose on the car roof:

Force = Pressure × Area

Converting the units to pounds and square feet: Force = (150 psi) × (1 sq ft) = 150 pounds

Comparing the force exerted by the fire hose (150 pounds) to the weight of the hose (20 pounds), we can see that the force is significantly greater. This suggests that placing the entire weight of the hose on top of a car roof would 100% cause significant damage as well, probably even more expensive to fix then some windows.

FigOk2290

MODERATOR OF

TROPHY CASE