Fuerjfeoifjeorfj i think i just pooed myself : )
Just the imparted energy. As with water or electrons in a wire the energy moves and the medium stays in its local area.
The wavelength of a transverse wave is the distance between successive crests.
The intensity of a sound decreases as the distance between the source and the receiver increases. This is due to the spreading out of sound energy over a larger area as it travels further away, resulting in a decrease in the concentration of energy at the receiver.
Electrical energy is transformed into electromagnetic waves, which travel through the air to a receiver in the radio. The receiver then transforms these waves back into electrical signals, which drive the speakers to produce sound waves that we hear as music or speech.
An energy chain in sound refers to the sequence of events that occur as sound energy travels from a sound source to a receiver (e.g., from a speaker to a listener). It involves the conversion of electrical energy to mechanical energy (sound waves) and ultimately to acoustic energy that is perceived by our ears.
Heat energy can be transferred from a source to a receiver by conduction, convection, and radiation.
Energy.
The small part of the energy in radio waves that is captured by the antenna of the receiver becomes electrical energy, in the form of a minuscule current flowing down into the receiver. It controls much larger currents in the receiver, and some of those are eventually converted to sound waves when they reach the speaker or ear buds.
Just the imparted energy. As with water or electrons in a wire the energy moves and the medium stays in its local area.
A radio receiver transforms electrical energy to acoustic energy
The wavelength of a transverse wave is the distance between successive crests.
The intensity of a sound decreases as the distance between the source and the receiver increases. This is due to the spreading out of sound energy over a larger area as it travels further away, resulting in a decrease in the concentration of energy at the receiver.
chemical -> Mechanical-> Sound and light-> heat...
Electrical energy is transformed into electromagnetic waves, which travel through the air to a receiver in the radio. The receiver then transforms these waves back into electrical signals, which drive the speakers to produce sound waves that we hear as music or speech.
A television receiver doesn't need sound energy to do its job ... receiving a coded radio signal and decodingthe information it carries to generate video and audio signals.Part of the television receiver's job is often to GENERATE sound energy, for your benefit, in order for you to hearthe audio that goes along with the picture on the screen.
A; it is to match the cable line impedance to the receiver for maximum transfer of energy
A television receiver uses electrical energy, either from batteries or from the electrical outlet it's plugged into, and converts that energy into a tiny bit of light energy, a moderate amount of sound energy, and a considerable amount of heat energy.