No, a spider web cannot stop a jumbo jet. A jumbo jet weighs hundreds of thousands of pounds and requires vast amounts of fuel to take off and travel vast distances. A spider web is extremely fragile, light, and although it is surprisingly strong, it is not capable of holding the weight or the force of a jumbo jet.
Additionally, a jumbo jet creates an enormous amount of wind resistance, thrust, and drag when aircrafts travel, which no amount of spider web silk can endure.
Can spider silk stop a Boeing 747?
No, spider silk could not stop a Boeing 747. Spider silk is incredibly strong and resilient, with some estimated to be 5 times stronger than steel by weight. However, the sheer size, speed and weight of a Boeing 747 would be impossible for spider silk to stop.
Even if the spider’s silk was unbelievably strong, its tiny size would be inadequate when faced with the mass and speed of a Boeing 747. Instead of trying to rely solely on spider silk, a better solution would be to use a combination of large, strong materials such as metal or rope to help slow and stop the giant aircraft.
What diameter of a rope made of spider silk is strong enough to stop a 747 in flight?
This is a difficult question to answer, as there are a lot of factors that come into play. Spider silk has remarkable strength, being able to withstand up to five times the force of steel of similar thickness, however the overall strength of a rope depends on many variables such as the type of silk, the number of strands, the diameter, the direction of the strands and more.
Ultimately, in order to answer the question posed, more in-depth research would need to be conducted in order to assess how much force a rope made of spider silk of a certain diameter could withstand.
The specific rope material and its diameter would also have to be tested and evaluated to determine the ultimate strength of the rope. In addition, the forces generated by the 747 in flight, such as speed, lift, turbulence, and other external factors, would also need to be taken into account in order to determine if a rope of spider silk could stop the airplane in its tracks or not.
Has a 747 ever broken the sound barrier?
No, a 747 has never broken the sound barrier. The sound barrier refers to the point at which the speed of an object reaches the speed of sound (768 mph or 1,235 km/h). This speed is known as Mach 1 and is the point at which shock waves form and create loud sonic booms.
Subsonic aircraft such as the Boeing 747 are not capable of reaching this speed. Although there have been instances when aircraft were observed producing sonic booms, it was later concluded that the speed of the aircraft was likely subsonic.
Is there anything stronger than spider silk?
Yes, there are some materials that are stronger than spider silk. Spider silk is already quite strong, with a tensile strength of up to 1. 2-1. 3 GPa (or 120-130 kg/mm2). But some man-made fibers have achieved even higher tensile strengths, such as Vectran™, with a tensile strength of up to 2.
62 GPa (or 262 kg/mm2). Other man-made materials such as Kevlar® and Dyneema® also have improved tensile strengths over spider silk. Graphene is thought to potentially have the highest tensile strength of all, at around 130 GPa (or 1,300 kg/mm2).
However, it is very expensive to produce and has only recently been available for use in scientific research, so practical applications are yet to be explored.
What is the hardest thing to break in the world?
The hardest thing to break in the world is Diamond. Diamond is a crystal composed of carbon atoms joined together in a repeating pattern and it is one of the strongest and most durable materials ever created.
Diamonds are extremely resistant to damage and it takes an immense amount of energy to break one. Diamonds are so strong that they are even capable of withstanding extremely high pressures and temperatures.
Even scientists have a hard time trying to break them and the only way to do so is with a diamond saw. Additionally, they are also resistant to acids and most chemicals and can only be scratched by another diamond.
All these factors make diamond incredibly difficult to break.
Is spider silk the strongest?
No, spider silk is not the strongest material. In terms of tensile strength, spider silk is typically three times stronger than Kevlar, which is the material used in bulletproof vests, but it is not the strongest material out there.
graphene, nanotubes, and carbon nanofibers are some of the materials that have been recorded as having a higher tensile strength than spider silk. In terms of ductility, or the ability to be stretched or bent without breaking, spider silk is surprisingly strong and can sustain up to five times its length before breaking.
Despite its strength, spider silk is ultimately limited by its fragility and lack of toughness, or the ability to resist being broken by objects coming into contact with it. For tough materials, diamonds, boron nitride nanotubes, and synthetic polyethylene are some of the toughest materials out there.
What is stronger spider silk or Kevlar?
Spider silk and Kevlar both have incredibly impressive strength and durability, making it difficult to definitively determine which is stronger between the two materials. However, spider silk has been found to be up to five times stronger than Kevlar in terms of tensile strength.
Spider silk’s highest recorded tensile strength is 1. 3 gigapascals (GPa), while Kevlar’s highest recorded tensile strength is around 0. 6 GPa. Spider silk is also much more flexible than Kevlar, and exhibits unprecedented elasticity, as well as a greater resistance to breaking when stretched to extreme lengths.
In addition, spider silk is more thermally resistive than Kevlar, making it better suited for use in a plethora of higher-temperature applications. Spider silk also has the amazing capacity for self-healing, allowing for some damage that has been done to it to be reversed.
In conclusion, spider silk appears to be far superior to Kevlar in terms of strength, durability, and versatility.
What is the strongest material on Earth?
The strongest material on Earth is microscopic in size and is also the world’s strongest artificial material – graphene. Graphene was first discovered in 2004 by two scientists at The University of Manchester and since then has become widely studied.
It is a single layer of carbon atoms arranged in a hexagonal (honeycomb) lattice. It is the lightest, strongest, and thinnest material known to man. Its strength is attributed to its efficient bonding network of carbon atoms, which is 200 times stronger than steel.
Graphene is widely used in modern applications such as lithium-ion batteries, computer chips, and touchscreens. It can even be used to produce super-strong, lightweight construction materials which could revolutionize the construction industry.
Despite its incredible strength and potential uses, graphene is still in the early stages of research and is unlikely to become widely available until further studies are conducted.
Is A Spider web stronger than a bulletproof vest?
No, a spider web is not stronger than a bulletproof vest. A spider’s web is created as a safety net to catch prey, not for protection from bullets or other attacks. Spider webs are typically made of threads of silks attached between points and are not designed to withstand any kind of significant force.
Even though spider webs are often celebrated for their beautiful yet intricate designs, they cannot compare to the strength and durability of bullet-resistant Kevlar, which is used to make bulletproof vests.
Bulletproof vests consist of multiple layers of Kevlar-reinforced fabric and nylon, providing maximum protection against bullets. Whereas a spider web can easily be ripped apart, bulletproof vests are incredibly strong and extremely lightweight, providing both extreme protection and comfort.
Can bullets go through silk?
The short answer is yes, bullets can go through silk. This depends on the type of bullet and the thickness of the silk, however. Bullets fired from handguns and rifles travel at a high velocity and can easily penetrate silk.
However, if the silk is thicker or heavy enough, bullets may not be able to penetrate it all the way through. On the other hand, some lighter and less powerful bullets, such as small caliber bullets, may be stopped by a single layer of silk.
The lightest bullets typically will not go through any thickness of silk, though it is not unheard of.
In summary, it is possible for bullets to go through silk but this depends on many factors, such as the type of bullet and the thickness of the silk. Thicker or heavy silk is more likely to stop a bullet from going through.
What can bullets not go thru?
Bullets cannot go through objects that are made of Kevlar, such as bulletproof vests, as well as objects made of steel and armor plate. In general, bullets can only penetrate what they have the kinetic energy to penetrate.
In some cases, even a single-ply level of Kevlar fabric may stop a 9mm handgun bullet or other lower caliber bullets. Objects with thick layers of Kevlar or steel may stop even the most powerful rounds.
Ballistics gel tests have also shown that some objects can significantly reduce harm from bullets, such as stacks of books or layers of drywall.
What material can stop a bullet?
Depending on the caliber and type of bullet being fired. The most common materials used to stop bullets are steel, Kevlar, and ceramics.
Steel is one of the most commonly used materials for bullet-proof armor. It is highly effective at stopping most types of bullets, however it is significantly heavier than other materials and can make wearing the armor extremely uncomfortable.
It also has the potential to ricochet the bullet, making it dangerous to use in certain situations.
Kevlar is a lightweight synthetic material that is commonly used in bullet-proof armor. It is five times stronger than steel and extremely lightweight. It also has the ability to stop bullets from penetrating the armor, making it a popular choice for body armor.
It does, however, have the potential to deform the bullet, which can cause it to ricochet in unpredictable directions.
Ceramics are an increasingly popular choice for bullet-proof body armor. They are extremely lightweight and provide excellent protection against most types of bullets. They also absorb the energy from the bullet, reducing the chance of ricocheting.
The downside of ceramic armor is that it is more brittle than steel or Kevlar, and can shatter upon impact.
In short, all three materials can be effective at stopping bullets, but the type and caliber of bullet will determine which material is the best option. Steel is the least comfortable to wear and the most prone to ricochet, Kevlar is lightweight and strong and will deform rounds, while ceramics can be very effective but they are brittle and may shatter upon impact.
How much spider silk does it take to stop a bullet?
It is impossible for spider silk to stop a bullet on its own, as even the toughest spider silks are not as strong as Kevlar, which is used in bulletproof vests. Spider silk is incredibly lightweight and elastic, but its strength is not yet comparable to materials like Kevlar.
A recent study conducted by Purdue researchers even suggested that spider silk’s high elasticity could cause it to stretch and expand in the face of a bullet, increasing the risk of injury. However, spider silk could still be used as additional protection in ballistic vests, as it is far more lightweight than Kevlar and other materials.
Spider silk can be layered or woven into a fabric to increase its strength, and it could be used to reinforce other materials like Kevlar in bulletproof vests. Additionally, research has suggested that spider silk may be capable of absorbing radiation, meaning that it could be used in space suits and other protective apparel in the future.
Can fabric stop bullets?
No, fabric is not able to stop bullets. Bullets travel at high velocities and even the strongest fabric will not be able to stop them. The only way to protect yourself from bullets is to use body armor that is rated to stop specific calibers of ammunition.
These body armors are specially designed to absorb and disperse the energy from the bullet, which is necessary to make sure it does not breach the user’s body. Additionally, even the best body armor will not be able to stop a bullet completely, as there is still a risk of injury from the shockwave that is created by the bullet.
To ensure maximum protection, it is always recommended to use a hard plate that is rated to stop the specific caliber of ammunition that is being used.