Ants can lift so much weight because they have a strong exoskeleton and muscles that are proportionally stronger than those of larger animals, allowing them to carry objects many times their own body weight.
Ants are able to lift heavy objects compared to their size because they have a strong exoskeleton and muscles that work together efficiently. Additionally, ants have a specialized body structure that allows them to distribute weight effectively, enabling them to carry objects many times their own weight.
Ants are able to carry heavy objects because of their small size and strong muscles. Their bodies are designed to distribute weight efficiently, allowing them to lift objects many times their own weight. Additionally, ants work together in groups to move larger items, using teamwork to accomplish tasks that would be impossible for a single ant alone.
In a movable pulley system, the effort force required is half of the weight being lifted. So, to lift a 300 kg weight, you would need to apply an effort force equal to 150 kg.
Using 2 pulleys in a block and tackle system reduces the amount of force needed to lift the weight by half, so it would require 50 lbs of force to lift a 100 lb weight. The mechanical advantage of the system allows the load to be distributed among multiple lines, making it easier to lift heavy objects.
Using a fixed pulley system, you would still need to exert the same amount of force as the weight you are trying to lift. So, to lift a 300 kg weight, you would need to exert a force equal to the weight (300 kg) times the acceleration due to gravity (9.81 m/s^2), which equals 2943 N.
Ants are very active because they have so much strength that they can lift 10-50 times their weight! The small size of ants gives them an advantage on how much muscle force they can produce!
Ants are able to lift heavy objects compared to their size because they have a strong exoskeleton and muscles that work together efficiently. Additionally, ants have a specialized body structure that allows them to distribute weight effectively, enabling them to carry objects many times their own weight.
depends on the species, one species of ants can have a colony that has a hundred or so ants in it that would weigh less than 1 lb. Other species have over 1 million ants in the colony so it would weigh thousands of pounds.
Ants are able to carry heavy objects because of their small size and strong muscles. Their bodies are designed to distribute weight efficiently, allowing them to lift objects many times their own weight. Additionally, ants work together in groups to move larger items, using teamwork to accomplish tasks that would be impossible for a single ant alone.
The lift produced by the wings is greater than the weight.
you can mutate yourself but you have to travel far to see a doctor because if you belive that you can then your mental
While honeypot ants eat, their abdomen can reach the size of a small grape. The ant itself is just the size of common red ants. Sometimes they swell up so much that they are rendered inable to move.
Ants are tiny so they have a size to movement of muscles ratio advantage. A big animal needs to move more space of muscle mass in order to lift. Ants are small and they don't have much muscle resistance to do heavy jobs compared to their size.
-iaminNEED'S answer- to me(i am only 11 years old) but i am like pass that weight so,i think 25.
In a movable pulley system, the effort force required is half of the weight being lifted. So, to lift a 300 kg weight, you would need to apply an effort force equal to 150 kg.
ants can take down a king crab by climing into soft joints like the elbos or eyeballs and eat it from the inside out. a bullet ant, has a poison so powerfull that one sting will hurt (insanly) bad, in 6 hours following the sting about a 1 foot or so area around the inflicted area will become numb.Ants have six legs. Each leg has three joints. Ants can lift 20 times their own body weight. The average life span of an ant is 45-60 days.They eat ants!
2 inch lift kits are normally sold as lift blocks so they will lift the vehicle exactly 2 inches. Larger lift kits that achieve their lift with replacement springs will have some variability. This is due to sag over time as well as variations in the exact overall weight of the vehicle.