Blue Ember

How To Choose The Best Blue Ember

What Is The Purpose Of A Blue Ember?

An ember is a small piece of coal that has been heated to glowing red hot. In order to create a blue ember, the coal must be placed into water and allowed to cool slowly. Once cooled, the ember becomes blue. An ember is created by heating a lump of coal with air. The heat causes the carbon atoms within the coal to bond together forming graphite. As the temperature increases, more carbon bonds form creating larger pieces of graphite called lumps. Lumps are formed because there is no free movement between the carbon molecules. If the temperature continues to rise, the carbon begins to melt. At this point, the carbon atoms begin to flow freely around each other causing the formation of smaller particles called dust. Dust is formed because the carbon atoms can now move freely around each other. Graphite is soft enough to be molded into many different forms including pencils, pens, and crayons.

How Does The Embers Make Music?

The process of making music using embers is very simple. First, the artist takes a lump of coal and places it inside a container filled with water. Next, he heats the coal with air so that it glows red-hot. Then, the artist pours the ember into a bowl containing cold water. After cooling down, the ember turns blue. Finally, the artist uses his fingers to mold the ember into whatever shape he desires. He might choose to make a guitar pick, a pen, or a musical instrument.

Blue Ember Recording Studio

In the early 1900s, artists began experimenting with the idea of recording sound onto wax cylinders. Before long, musicians realized that these recordings could be played back later. However, the quality of the recordings was poor due to the fact that the cylinder itself was fragile. To improve upon this technology, engineers developed the phonograph. With the invention of the phonograph came the development of the turntable. Turntables allow records to spin while being pressed against a metal platter. This creates a smoother playback experience. Unfortunately, the turntable wasn't perfect either. Records tended to skip and jump during playback. Engineers soon discovered that the problem lay with the needle. Instead of pressing directly against the record, the needle bounced along the grooves of the record. This caused the needle to skip across the record leaving gaps where the groove was missing.

Ember Recording Studios

Engineers eventually found a solution to this problem. They invented the tape recorder. Tape recorders consist of two parts; a head which reads information off the magnetic tape and a motor which moves the tape past the head. Because the tape is moving, the skipping problems are eliminated. Today, we call this type of machine a cassette player. Cassette players are still widely used today. For example, most portable CD players use cassettes.

Recording Using The Blue Ember

Using the ember, artists can produce high quality recordings. Artists can use the ember to play instruments, sing songs, or compose music.

The Importance of Purchasing a Quality Blue Ember

Ember microphones are great tools for musicians who play acoustic instruments because they provide excellent sound reproduction while minimizing noise interference. If you're playing electric guitar, bass, drums, or other electronic instrumentation, however, there's no reason why you shouldn't invest in an ember microphone. In fact, many professional musicians prefer using embers because they produce more natural sounds than condensers.

How Do Embers Differ From Condensers?

In general, embers are smaller and lighter than condensers. Because of their size and weight, embers are easier to transport around and set up. For example, you could take a small ember with you on stage and plug into your mixer during breaks. However, embers aren't necessarily cheaper than condensers. While most embers are priced similarly to condensers, there are several brands available that sell embers for significantly lower prices.

Are There Any Drawbacks To Using An Ember Over A Condenser?

There are two main drawbacks to using an ember rather than a condenser. First, embers generally lack the high output power of condensers. Second, embers are not nearly as sensitive as condensers. As a result, you might be able to hear background noises when you record vocals or percussion with an ember mic.

Is There Anything Else That Makes An Ember Different Than A Condenser?

While both types of mics share certain characteristics, embers differ from condensers in several ways. One major distinction is that embers are designed specifically for acoustic applications. Most embers include a diaphragm that vibrates freely within its housing. This design makes them ideal for capturing low frequencies, which are important for acoustic music. Another key difference is that embers are built to withstand extreme temperatures. Many embers are rated for outdoor use where temperature extremes are common.

Which Is Better - Recording With An Ember Or A Condenser?

It depends on what kind of application you're trying to achieve. If you're looking to capture live performances, embers are probably the best choice. Their large diaphragms allow them to pick up low frequency sounds very well. On the other hand, if you're looking to create recordings with crisp highs and deep lows, condensers are likely the way to go.

Where Can I Purchase An Ember Microphone?

Some specialty stores also stock embers. Check local classified ads or search online for "emberand "microphones.

Can I Use My Old Condenser Mics With An Ember Mic?

Yes! Although embers are primarily intended for acoustic purposes, they can still be used effectively for recording vocals and percussion.

Features To Look For When Buying A Blue Ember

The best way to choose between different microphones is by listening to them with your ears. If you're using headphones, plugging into a mixer, or playing music through speakers, you might be able to hear differences in sound quality. But when you listen to a mic directly, you'll notice more subtle nuances. The most important thing to know before purchasing a microphone is whether or not it has a pop filter. Pop filters reduce high frequency sounds so that they aren't picked up by the mic. Without a pop filter, you could end up picking up background noise that was never intended to be recorded.

Pop Filter

Some mics include built-in pop filters while others require external ones. External pop filters are generally easier to install because there isn't anything inside the microphone itself. However, internal pop filters are cheaper and take up less room. Some models include both types of filters.

Microphone Type

There are two main types of microphones: dynamic and condensers. Dynamic mics pick up everything around them including wind, air currents, and other noises. Condensers only record sounds within close proximity. Because of this, condensers are quieter than dynamic mics. Most condensers are cardioid patterned which means that the sound waves bounce back towards the source rather than away from it. Cardioids are great for vocals since they allow you to isolate the voice from surrounding noise.

Frequency Response

Another factor to consider when choosing a microphone is its frequency response. Frequency response measures how well a microphone records low frequencies compared to higher frequencies. Low frequencies are those below 100Hz whereas higher frequencies go above 1kHz. High frequency recordings are useful for instruments such as guitars and drums. Lowering the amount of high frequencies in a recording makes it sound warmer and fuller.

Pickup Pattern

Most condensers are omnidirectional meaning that they capture sound evenly throughout 360 degrees. Omnidirectionals are good for capturing voices and instruments. Pickups with cardioid patterns are ideal for vocalists who want to isolate themselves from unwanted ambient noise.


This refers to the volume level needed to produce a certain sound. Sensitivity varies depending on the type of material being recorded. For example, a drum kit needs a lot of sensitivity to pick up the lower pitched tones of cymbals and snare hits. In contrast, vocals need very little sensitivity to pick up the softer parts of the human voice.


Finally, price matters too. There are many inexpensive options available today. However, you shouldn't settle for something subpar simply because it costs less money. Make sure that you research each model thoroughly before making a purchase.

Different Types of Blue Ember

Ember is a type of electronic component with many uses. The most common form of ember is the ceramic capacitor. Ceramic capacitors are commonly found in audio circuits because they provide high-frequency stability and low noise levels. In addition, they're very reliable and durable. However, there are other forms of embers which are more specialized. For example, there are different types of blue embers. Here we explain the differences between these different types of blue embers.

Ceramic Capacitor

The most common form of ember is the ceramic capacitor. Ceramic capacitors are generally available in two varieties; electrolytic and non-electrolytic. Electrolytics are typically cheaper than non-electrolysics, but they require special handling due to their sensitivity to moisture. Non-electrolytics are more stable and easier to handle. Both types of ceramics are constructed using a dielectric material sandwiched by electrodes. The electrodes are connected together via leads so that current flows through the dielectric material.

Electrolytic Capacitor

The coating acts as the dielectric. Metal foils are rolled into sheets and cut into strips. Each strip is dipped in a solution containing salt and water. After drying, the resulting product is called "salted paper". Salts cause the water molecules within the paper to separate, leaving behind tiny pockets of air. As a result, the paper becomes porous and its thickness increases. The process of making salted paper is known as impregnation. Impregnated paper is then wound around a spool and dried again. Finally, the paper is treated with oil and heat to seal the pores and remove excess salts. The finished product is ready for assembly.

Non-Electrolytic Capacitor

A non-electrolytic capacitor does not contain an electrolyte. Instead, it contains a solid dielectric material. Dielectrics are either polymers or ceramics. Polymer dielectrics consist of plastic materials such as Teflon and Mylar. Ceramic dielectrics include barium titanate, aluminum oxide, zirconia, and tantalum pentoxide. All of these materials act as the dielectric. Unlike electrolytes, dielectrics cannot conduct electricity. Therefore, they must be electrically isolated from each other and from the rest of the circuit. To accomplish this, the dielectric layers are separated by a series of plates. Plates are flat pieces of metal that serve as electrical contacts. Typically, the plates are stacked upon each other and attached to the ends of the dielectric stack.

Blue Ember

The term "blue" refers to the color of the ceramic material. There are several kinds of blue embers including alumina, barium titanate, calcium titanate, zinc stannate, and strontium titanate. Alumina is the most popular choice for capacitors. Barium titanate is used primarily in radio frequency applications.