Why didn t an ant die when he climbed to the 100th floor and fell?

The ants are very light, so they are blown away by the wind.

Because the ant was climbing down from the top of the 100th floor.

Because the ants carry parachutes on their backs.

That's your stinky socks!

Because the ant's weight is too light, and its own free fall under air resistance slows down the descent. So it won't fall to death.

Those who are tired to death or die of old age.

Because it's jumping in.

Because ants are very light, they float slowly, and they can't die.

Hungry, hungry, hungry, starved to death.

Starving, hahahaha...

Standard answer.

The speed of an ant's descent is relatively small when the air resistance is in equilibrium with its gravity (just like a raindrop falling from a high altitude, but not at a great speed). So you won't be thrown to your death.

Fell on the pig's head and killed the pig.

Hehe, still flying in the air, hehe, buddy on the 14th floor, you're so funny.

Ant. Ant.

From. Again. High. Target.

Earth. Square. Stumble. Under.

Come. None of them will die.

You can't find her before she hits the ground......He was too young, so I didn't know he was dead.

Climb to the 100th floor and get on the floor in the house, haha.

Or it's a fake fall that is played like Chinese football

I think the answer is right on the second floor.

Because it has a parachute.

It's so light that it can't be killed.

I didn't fall from the 100th floor to the 1st floor, to be exact, I fell on the 100th floor! Hehe.

3. The body size of the ant is small, and it is almost free from the risk of falling to death. From a theoretical point of view alone, we find that in the context of the earth's gravitational environment, ants will not be killed by falling, and the weight of the ants themselves can be almost negligible, and in the process of falling, they can also be buffered by the air, precisely because if nature is also free from the risk of falling to death.

In fact, for us, the reason why it is theoretically difficult for ants to be killed by the earth's gravity from the earth's environment is because of the ant's tiny body and air buffering force, and in the process of falling, the injury of falling can almost be ignored, and this is also the most fundamental reason why ants can not be killed by falling, and on the contrary, the smaller the size and the larger the mass of the animal, on the contrary, the higher the injury and the easier it is to be killed.

It will not fall to death, because the amount of force area determines the resistance, and the mass of the ant is negligible, so he will not fall to his death if he falls.

It will fall to death, because an apple falling from a tall building can hit a person's head and break the blood flow, so the ant is the same, because its gravity is there.

No, because there will be wind in the air, there will be buoyancy, and the ants have a small body weight and a small gravitational potential energy.

Is it true that ants don't get thrown to death? Let the ants jump from 10 floors, what will happen.

Ants will not die if they fall from 10 floors. Because the ants are too light, they can't form an impact force at the moment they touch the ground. The ants are too small and light, and the light wind is a little stronger, which can blow the ants all over the ground.

Because it is too light, when the ant falls from a height, it cannot form an impact force with the ground at the moment it touches the ground. So, no matter how high the ant falls, it will be unscathed.

Morphological characteristics of ants:There are 21 subfamilies and 283 genera of ants, and the main classification system of 16 subfamilies is used, and compared with the system of 21 subfamilies, the new system divides several subfamilies from the mammoth ant (ponerine). Generally, the body is small, the color is black, brown, yellow, red, etc., and the body wall is elastic, smooth or slightly hairy.

The mouthparts are chewy, and the palate is well developed. The antennae are knee-shaped, the stalk nodes are very long, the terminal 2 3 nodes are distended, and the whole antennae are divided into 4 13 segments. The abdomen is knotted.

Divided into winged or wingless. The distance of the forefoot is large, comb-shaped, and it is a horn cleaner (used to clean the antennae).

The answer is: "starved to death".

Explanation and analysis: Because the ants are too small and light, they have to float in the air for a long time when they fall from the peaks of millions of meters, and they starve to death when they can't find food in the air.

Common brain teasers.

1 Winter melon, cucumber, watermelon, and pumpkin can be eaten, but what melon can't be eaten? - Answer: Fool.

2 There are 6 steamed buns in the basin, and each of the 6 children gets 1, but there is still 1 in the basin, why? - Answer: The last child took the basin with him.

3 Can you turn ice into water as fast as you can? - Answer: Remove the word "ice" from two points and it becomes "water".

4 In winter, the baby is afraid of the cold and refuses to take off his hat when he is in the house. But he saw a man obediently take off his hat, who was that man? - Answer: Barber.

5 Lao Wang Bochun ordered him to shave his face forty or fifty times a day, but he still had a beard on his face. What is the reason for this? - Answer: Lao Wang is a barber.

The ants will not fall to their deaths if they fall from a height of several hundred meters. When operating in the Earth's tropospheric atmosphere under normal conditions, air resistance will limit the ant's final velocity to less than one meter per second, and the ant will not fall to death without additional conditions such as "large initial velocity and short travel" and "large counterweight".

<> "I'm going to make a very interesting hypothesis, if an ant accidentally falls from a 60-story building, will it fall to its death?"

The answer is: "No". If we want to say the reason, we have to start with the physics we studied.

Anyone who has studied physics in junior high school knows that the density of an object corresponds to the drag force, which in a fluid is buoyancy. The higher the density, the lower the resistance, and conversely, the lower the density, the greater the resistance. Whereas, buoyancy is calculated by the volume of the object immersed in the fluid.

At the same time, mass creates gravity. According to the formula: (gravity - buoyancy) mass = acceleration.

The impact and kinetic energy of an ant falling to the ground determines whether it will be killed or not. So how much impact does the ant have? Due to the small size and mass of ants, air can provide enough resistance and buoyancy to an object as small as an ant, just like a fish in water, relative to the density of air.

Therefore, in the windless state, the buoyancy of the ant in the air is slightly greater than its own weight, and even if the ant falls from the moon, it will not fall to its death. If the wind is stronger, the ants may have been floating in the air, starving to death, but never falling to their death.