A sound wave that has a large amplitude carries a lot of energy because the higher the waves amplitude the louder (more powerful or energetic) the wave will be. apex answer: high amplitude
The loudness of a sound is the same thing as the overall amplitude of a sound. When measuring sound, in general, you have pitch (frequency) and tone (amplitude, the measure of loudness). So, if you increase the amplitude of a sound wave pattern, you increase the overall intensity of the sound (the energy), and that can be measured on the logarithmic scale of decibels, since an unconstrained, undirected sound wave carries its energy outward in all directions, in an increasing volume of air (or other medium).
Amplitude is the energy of a sound wave, which we also call Loudness
Sound is a compressional wave , i.e , pressure. you do understand that pressure is F/A.Thus when A increases the pressure decreases. Now sound waves looks like a circle where its center is the origin of the sound and the circle gets bigger as we go further from its center this means that the area covered increases and the sound compressional waves ( pressure) decreases. Distance effects sound because sounds moves by bumping into other particles and momentum is lost every time they bump because it creates heat and so one
Loudness is the quality of a sound that is the primary psychological correlate of physical strength or amplitude. Loudness is a subjective felt impression and is in some way related to the objective measure of the sound pressure. Neither our ear drums nor the microphone diaphragms can convert acoustic intensity. Therefore only use the sound pressure for measuring. To measure the loudness feeling is a difficult thing. The loudness of 1 sone equals the loudness level of 40 phons (at 1 kHz).
Amplitude is a measure of the size of sound waves. It depends on the amount of energy that started the waves. Greater amplitude waves have more energy and greater intensity, so they sound louder. As sound waves travel farther from their source, the more spread out their energy becomes.
A sound wave with a larger amplitude also carries more power.
Also increases.
Because the amplitude is what decides how much energy there is in the wave. Large amplitude = lots of energy. And lots of energy hitting something(like your ear) is more likely to do damage than a little energy hitting something.
Sound has two quantitative qualities that we usually measure and those are amplitude and frequency. So I am asuming you are referring to the loudness and softness as the amplitude quantity. The louder a sound, the more energy it carries. So, a loud sound, using your descriptive terms, has more energy than a soft sound, which has less amplitutde.
The loudness of a sound is the same thing as the overall amplitude of a sound. When measuring sound, in general, you have pitch (frequency) and tone (amplitude, the measure of loudness). So, if you increase the amplitude of a sound wave pattern, you increase the overall intensity of the sound (the energy), and that can be measured on the logarithmic scale of decibels, since an unconstrained, undirected sound wave carries its energy outward in all directions, in an increasing volume of air (or other medium).
Well, energy is directly proportional to the square of the amplitude. So if you increase the amplitude of a sound wave by a factor of 4, the resulting energy would be 16 times as large.
The answer to this depends on your frame of reference.If you are thinking of waves that are produced on our planet and that you might experience in your lifetime, the obvious candidates are (smallest first)the shockwave from a multi-megaton nuclear explosiona tsunamia powerful earthquake (Richter 8+)In the universe at large the waves in a Gamma Ray Burst dwarf all else. The chances of a GRB happening dangerously close to us in any one year are about one in ten billion. Fortunately.
The amplitude of the sound waves will be largerbecause the larger the amplitude the louderthe sound.
Its volume or how loud it is.
The energy and the amplitude are related in such a way that, the greater the amplitude the greater is the energy. The sound pressure amplitude tells about how loud the tone will be.
The amplitude of a compressional wave, like a sound wave, is determined by the concentration of molecules in each compression. The higher the amplitude, or energy that a wave carries, the more compact the molecules are in a compression. The lower the amplitude, the more spread out those particles are. the amplitude of a compressional wave,like a sound wave,is determined by the contretration of waves in a compression
Other things being equal, the sound wave with more energy will have a greater amplitude.However, the energy (more precisely, the intensity) also depends on the distance from the source, and on the exact frequency.