Microwave can pass through ionophere and only suffer some reflection
NO the ionosphere is only in the Thermosphere
The ionosphere bends radio waves . . . most go out into space, but a fair number hit the earth far away, and are reflected back up to the ionosphere. Radio operators call this phenomenon, "The skip".
The ionosphere is the layer responsible for enabling long-distance radio communication by reflecting radio waves back to Earth. Its charged particles interact with radio waves, bending and reflecting them to facilitate communication over long distances. Without the ionosphere, radio waves would continue into space, limiting long-distance communication possibilities.
A microwave detector, also known as a microwave sensor or microwave receiver, is used to detect microwaves. These detectors typically consist of various components such as antennas, waveguides, diodes, and amplifiers that together can sense and measure microwave radiation.
The ionosphere, which is part of the Earth's atmosphere, contains ions. The ionosphere is located in the thermosphere and is responsible for reflecting radio waves back to Earth and playing a role in the Earth's magnetic field.
In a terrestrial microwave system, the transmission of signals is achieved through line-of-sight communication between microwave antennas on towers or structures. The antennas send signals back and forth in a straight path, utilizing microwave frequencies to carry voice, data, or video information. This system is commonly used for point-to-point communication over short to medium distances.
NO the ionosphere is only in the Thermosphere
Microwave EM radiation travels only in a straight line - line-of-sight/point to point. Bouncing waves off of the ionosphere would accomplish this.
Microwaves are not reflected by the ionosphere because their wavelengths are too short for the ionosphere to effectively reflect them. This is why microwaves are commonly used for satellite communication, as they can pass through the ionosphere to reach satellites in space.
Radio waves can pass through the ionosphere. This enables long-distance communication, such as radio broadcasts or communication with satellites, to be transmitted over the horizon.
It is the ionosphere, a general region that includes all of the thermosphere and parts of the two bordering layers. In this region, between 60 and 1000 kilometers above the Earth, ionized particles refract and reflect radio waves back toward the ground. This enables radio transmissions that are normally "line of sight" only to reach over the horizon for hundreds or thousands of miles. This includes broadcast radio (HF) and shortwave bands.
Pointed Pellets will have more penetration.
Any Amplitude Modulated radio signal will penetrate the ionosphere if its carrier frequency is high enough. Signals in the commercial AM broadcast band, with frequencies between 530 and 1700 KHz, aren't high enough. Most of their energy reflects from the ionosphere.
The Ionosphere.
You can not charge a battery in the microwave.
Radio waves reflect off the ionosphere. The ionosphere is composed of ionized particles that can refract and reflect radio waves, allowing for long-distance communication through the atmosphere. The ability of radio waves to bounce off the ionosphere is important for services like shortwave radio and over-the-horizon radar.
ionosphere