Not physically possible - since the echo couldn't travel in the vacuum of space. However, depending on the position of the moon - theoretically, it would take between 586 & 656 hours for the echo to return.
Edit from Drake Tinker - I'm not entirely certain about this answer. For one thing, we have been studying the moon using radar imaging for years in the hope of finding ice or possibly other useful features should we ever decide to attempt a fully independent base on the moon. Radar uses uses radio waves of varying amplitude and frequency depending on the use and is NOT affected by vacuum. There might have been some confusion due to the use of the word echo, which might be considered a event limited to an atmosphere.
Around 2.5 seconds. The distance moon varies between approx 362.6 thousand km and 405.4 thousand km. At the speed of light in space (approx 300,000 km per second), the radio waves would take between 2.42 and 2.70 seconds.
there is a big difference between circular and linear convolution , in linear convolution we convolved one signal with another signal where as in circular convolution the same convolution is done but in circular patteren ,depending upon the samples of the signal
For one example, linear prediction is used for predicting the next "sample" of human voice in conversation, at the sending side of the conversation. The actual next sample is subtracted from the predicted sample and this difference is called the error. The sending side encodes and transmits only the error signal because the receiving side uses the same prediction algorithm and can reconstruct the error free signal equals the predicted signal plus the received error signal. There's an advantage only if the error is small enough to be transmitted with fewer bits.
Signal is the electrical(discussion is confined to electrical domain only) quantity which varies between two levels and holds some useful information.
Crosstalk is typically measured in decibels (dB), which quantifies the level of interference or signal leakage between communication channels. It represents the ratio of the undesired signal to the desired signal, allowing for a clear comparison of signal integrity. In some contexts, it may also be expressed as a voltage ratio or in terms of specific signal-to-noise ratios.
about 2.56 seconds
kapareho ng assignment namin. malamang kaklase ko to :) --------- WE LOVE PHYSICS!! :D
A Digital Signal can have one of two values, 1 or 0. An Analogue signal can have any value between 1 and 0. Digital signals are better for sending information as if the signal is somewhat distorted, it is still easily recognisable. Vinyl Record use analogue. Cds use Digital
Around 2.5 seconds. The distance moon varies between approx 362.6 thousand km and 405.4 thousand km. At the speed of light in space (approx 300,000 km per second), the radio waves would take between 2.42 and 2.70 seconds.
Sending signals Recening signals Responding to a signal
Sending signals Recening signals Responding to a signal
If your sending unit is sending a wrong signal to your dash indicator such as no oil or low on oil when you know the level is okay, or vice-versa. Sometimes the sending unit will short out or just wear out and send the wrong or no signal at all.
DME is Distance Measuring Equipment. It is an electronic device located in an aircraft that can measure the distance between that aircraft's location and a point sending out a signal.
Please describe torque signal from engine to computer.
Could be a bad bulb (dual filament) and they are touching each other sending signal through parking light circuit or a bad ground sending signal searching for ground to the path of least resistance
Sending an electrical signal along a nerve cell.
"Sending up my timber" is a phrase that can refer to the act of sending a message or signal, often used in a nautical or logging context. In maritime terms, it might imply raising a flag or sending a distress signal. In a logging context, it could relate to sending logs downriver for transport. The specific meaning can vary depending on the context in which it is used.