What is sound barrier feet per second?
Sound barrier feet per second is the measurement of how fast sound travels through the air. This is typically measured in feet per second.
How does sound barrier feet per second work?
The sound barrier feet per second measurement tells you how fast sound travels through the air. This can be important for understanding how far away a sound is from you, and how fast it is moving.
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How many ft per second is supersonic?
Supersonic travel is defined as anything that moves faster than the speed of sound. This speed is about 768 miles per hour, or 1,236 kilometers per hour. So how fast does that work out to be in feet per second?
Supersonic travel is measured in feet per second because that is the standard measurement for speed in the United States. In order to calculate the speed of something travelling faster than the speed of sound, you need to take into account the time it takes for sound to travel the distance it is travelling.
For example, imagine you are in a car travelling at the speed of sound. If you were to fire a gun out the window, the sound of the gun would reach your ears at the same time as the gun itself. This is because the sound of the gun is travelling at the same speed as the car.
Now imagine you are in a car travelling faster than the speed of sound. If you were to fire a gun out the window, the sound of the gun would reach your ears after the gun itself. This is because the sound of the gun is travelling slower than the car.
In order to calculate the speed of something travelling faster than the speed of sound, you need to take into account the time it takes for sound to travel the distance it is travelling. This is done by using the speed of sound, which is about 768 miles per hour, or 1,236 kilometers per hour.
For example, imagine you are in a car travelling at the speed of sound. If you were to fire a gun out the window, the sound of the gun would reach your ears at the same time as the gun itself. This is because the sound of the gun is travelling at the same speed as the car.
Now imagine you are in a car travelling faster than the speed of sound. If you were to fire a gun out the window, the sound of the gun would reach your ears after the gun itself. This is because the sound of the gun is travelling slower than the car.
In order to calculate the speed of something travelling faster than the speed of sound, you need to take into account the time it takes for sound to travel the distance it is travelling. This is done by using the speed of sound, which is about 768 miles per hour, or 1,236 kilometers per hour.
This means that if you are travelling at the speed of sound, you are travelling at about 768 feet per second. If you are travelling faster than the speed of sound, you are travelling faster than 768 feet per second.
Do bullets break the speed of sound?
Do bullets break the speed of sound?
This is a question that has been debated for many years. The answer is not a simple one, as it depends on a variety of factors. In general, however, bullets do not break the speed of sound.
To understand why this is the case, it is important to first understand what the speed of sound is. The speed of sound is the speed at which sound waves travel through the air. It is a physical property of sound and is determined by the medium through which it travels.
In general, the speed of sound is faster in denser materials and slower in less dense materials. This is why sound travels faster through water than through air. The speed of sound in water is about four times faster than the speed of sound in air.
The speed of sound is also affected by the temperature of the medium. The higher the temperature, the faster the sound waves will travel.
Bullets are made of metal, which is a relatively dense material. In addition, bullets are typically fired at high temperatures. This means that the speed of sound in a bullet is much faster than the speed of sound in the air.
As a result, bullets typically do not break the speed of sound. There are some exceptions to this rule, however. If a bullet is fired at a very high velocity, it may break the speed of sound.
Is Mach 1 breaking the sound barrier?
Is Mach 1 breaking the sound barrier?
This is a question that has been asked for many years, with no definitive answer. Some people believe that it is and some people believe that it is not. However, there are several factors that need to be considered when trying to answer this question.
The first thing that needs to be considered is what Mach 1 actually is. Mach 1 is the speed of sound. It is the speed at which sound travels through the air. So, in order to break the sound barrier, you would have to travel faster than the speed of sound.
The second factor that needs to be considered is what actually happens when you break the sound barrier. There are a few different theories about this. One theory is that a shock wave is created. This is a wave of energy that travels through the air at the speed of sound. When it encounters an object, it can cause damage to the object. Another theory is that the air around the object becomes superheated. This can cause the object to heat up and then explode.
So, is Mach 1 breaking the sound barrier? There is no definitive answer to this question. However, there are several factors that need to be considered.
Are guns loud because they break the sound barrier?
Are guns loud because they break the sound barrier?
There is a lot of speculation surrounding why guns are so loud when they are fired. Some people believe that it is because the gun breaks the sound barrier, while others believe that it is because of the way the gun is designed. Let’s take a closer look at both of these theories.
The sound barrier is a physical barrier that exists when an object moves faster than the speed of sound. When an object breaks the sound barrier, it creates a sonic boom. This is a loud noise that is caused by the sudden release of energy that is created when an object breaks the sound barrier.
Some people believe that guns create a sonic boom when they are fired because they break the sound barrier. However, there is no evidence to support this theory. The sound barrier was first broken by an aircraft, and guns produce a much lower speed than an aircraft. In addition, if a gun did break the sound barrier, it would create a sonic boom every time it was fired. However, this is not the case – guns are only loud when they are fired the first time.
So, why are guns so loud when they are fired?
There is actually no definitive answer to this question. However, there are several theories that may explain why guns are so loud. One theory is that the sound is caused by the gun’s recoil. When a gun is fired, the recoil causes the gun to move backwards. This movement creates a surge of air that travels through the gun and out the barrel. This air flow is what creates the loud noise.
Another theory is that the sound is caused by the explosion that occurs when the gun is fired. When the gunpowder in the cartridge is ignited, it creates an explosion that forces the bullet out of the barrel. This explosion creates a lot of noise and pressure, which is what causes the loud noise that we hear when a gun is fired.
So, which theory is correct?
There is no definitive answer to this question. However, it is likely that the sound is caused by a combination of the recoil and the explosion.
Is Mach 20 faster than the speed of light?
In a sense, the answer to this question is “yes.” But it’s not as simple as it might seem. The speed of light is a constant, and no object can travel faster than it. However, scientists have found that the speed of sound is not a constant, and it actually varies depending on the medium it’s travelling through. This means that it’s theoretically possible for an object to travel faster than the speed of sound.
But does this mean that an object could travel faster than the speed of light? The answer to that is a bit more complicated. In order to travel faster than the speed of light, an object would need to break the light barrier. This is something that has never been done, and it’s not clear if it’s even possible. Some scientists believe that it may be impossible to break the light barrier, while others believe that it may be possible. But we still don’t know for sure.
So is it possible for an object to travel faster than the speed of light? We still don’t know for sure, but it’s possible. However, we don’t know if it’s possible to break the light barrier, and we don’t know if it’s even possible to travel faster than the speed of light.
Do bullets go supersonic?
Do bullets go supersonic?
The simple answer to this question is yes, bullets can go supersonic. However, there is more to it than just that. In order to understand why and how bullets can go supersonic, it is important to first understand what supersonic means.
Supersonic is defined as traveling faster than the speed of sound. This means that anything traveling faster than 340 meters per second (or 1,236 kilometers per hour) is considered supersonic.
So, why do bullets go supersonic?
The main reason bullets go supersonic is because of the drag force. Drag is a force that resists the motion of an object through a fluid. In the case of bullets, the fluid is the air. As a bullet travels through the air, the air resistance builds up and eventually reaches a point where the drag force is greater than the bullet’s weight. This is what causes the bullet to slow down and eventually stop.
However, when a bullet travels faster than the speed of sound, the drag force is no longer equal to the weight. In fact, the drag force actually becomes negative, meaning that it actually helps the bullet to travel faster. This is because the shock waves created by the bullet as it travels faster than the speed of sound actually push the air out of the way, creating a kind of “wind tunnel” behind the bullet that helps to propel it forward.
So, that is why bullets can go supersonic. But, does that mean they always go supersonic?
The answer to that question is no. In fact, most bullets don’t go supersonic. This is because the speed of sound is not constant and it actually varies depending on the temperature, humidity and altitude of the environment. In general, the speed of sound is higher in warmer and drier environments and lower in colder and wetter environments.
This means that the speed of sound can change during the flight of a bullet, and if the bullet happens to travel slower than the speed of sound, it will eventually stop. This is why most bullets don’t go supersonic; the conditions just aren’t right for it.
Why are there no longer sonic booms?
A sonic boom is a sound associated with the shock waves created by an object travelling faster than the speed of sound. They are often heard when a jet or other high-speed aircraft passes overhead.
Up until the late 1960s, sonic booms were a common occurrence in many parts of the world. However, with the advent of supersonic aircraft, the number of sonic booms heard each year has decreased dramatically.
So, what happened? Why are there no longer sonic booms?
There are a number of factors that contributed to the decline in sonic booms. One of the most significant was the development of the Concorde aircraft. The Concorde was the first commercial supersonic airliner, and it helped to change the way people thought about sonic booms.
Prior to the development of the Concorde, many people believed that sonic booms were a sign of progress. They saw them as a symbol of the power and technology of the modern world. However, the Concorde changed all that. It showed people that sonic booms could be a nuisance, and that they could actually be quite dangerous.
As a result of the Concorde, many countries began to legislate against sonic booms. They introduced laws that limited the number of supersonic flights that could take place in a given area, and they also placed restrictions on the maximum noise levels that could be produced by supersonic aircraft.
This legislation was a major contributing factor to the decline in sonic booms. It made it more difficult for supersonic aircraft to operate, and it discouraged airlines from investing in this technology.
As a result, supersonic flight has become a rarity, and sonic booms are now a thing of the past.