NO
The short answer is "by superheterodyning it". A more complete answer requires information not given in your question.
i think mathematics representation of converting electrical signals in to electromafnetic waves means as we know signals are represent by mathematical equation that is by function.and all signals are represent by function,so since function can have its own wave properties the same as it also have electromagnetic waves . here is my address "mebrahtomwelu@rocketmail.com"
MODEM:A modem takes digital signal from computer and converts them to analog for the phone and reconverts them back
Only light is used to send signals along optical fibres. That's why this type of fibre is described as "optical". Fibres designed to conduct electrical signals are referred to as "wires".
Yes microwave signals from geostationary satellites are attenuated as the signals pass through rain and snow storms. The TV picture pixellates and freezes during heavy downpours. The signal strength at the dish can be monitored by selecting 'signal test' on the satellite installation menu via the remote. Incidentally the mobile, or cell phone, transmitter network can be used as a real time weather station reporter. The signal strength needed to transmit and receive microwave call signals is dependent on the weather conditions in the area a t the time.
Microwave signals are detected using an antenna that captures the incoming electromagnetic waves. The waves are then converted into electrical signals that are processed and analyzed by the detection system. The intensity and frequency of the electrical signals are used to interpret the incoming microwave signal.
coherent light
Microwaves can be detected using special sensors or antennas that are tuned to pick up electromagnetic radiation at microwave frequencies. These sensors can convert the microwave signal into a readable form such as an electrical signal that can be easily measured and analyzed. Additionally, microwave detectors can also be used in devices like microwave ovens or radar systems to monitor and control the transmission and reception of microwave signals.
The instrument that converts electrical energy to sound or image signals in a radio or television is called a speaker for sound signals and a screen or monitor for image signals. These devices receive electrical signals and convert them into audible sound waves or visual images for the viewer.
A microphone typically uses electrical energy to convert sound waves into electrical signals. The electrical signals can then be amplified and processed by audio equipment for recording or broadcasting.
Sound is turned into electrical signals by a device called a microphone. Microphones convert sound vibrations into electrical impulses that can then be processed or recorded by various electronic devices.
The electrical signals generated by the ears are sent to the brain via the auditory nerve for interpretation. The brain processes and interprets these signals to create the perception of sound.
Microphones will convert sound waves into electrical signals. An ear (i..e human ear) will also convert sound waves into electrical signals.
Fiber-optic communication refers to the transmission of information using optical fiber. Opto-electronic repeaters are used to convert fiber optic light transmissions to electrical signals.
A microwave communication link typically consists of a transmitter, a receiver, and an antenna at both ends. The transmitter converts the electrical signal into microwave signals, which are then transmitted through the antenna. The receiver at the other end captures these microwave signals through its antenna and converts them back into electrical signals for further processing. The link may also include devices such as amplifiers, filters, and antennas to enhance signal quality and transmission.
An antenna functions to receive electromagnetic signals from a transmitter and convert them into electrical signals for a device to process. It also transmits electrical signals from a device into electromagnetic signals to be sent to a receiver.
The retina is the part of the eye that contains cells called photoreceptors (rods and cones) that convert light images into electrical signals that are then transmitted to the brain through the optic nerve.