Similar to a photograph, the x-rays (the actual RAYS) hit the object it's supposed to hit and then reflects off of whatever was blocking it and a special "machine-thingy" prints the image on a piece of that shiny paper via the ray-pattern it sends back to the paper. [:<
Sound is produced by objects that vibrate, creating pressure waves in the air. These pressure waves are then detected by our ears as sound.
No
Infrared radiation is the type of electromagnetic wave that makes an object feel warmer. These waves are produced by the heat emitted from objects and are detected by our skin as warmth.
Infrared waves, which have longer wavelengths than visible light, can be produced by heating up an object until it emits thermal radiation. This thermal radiation includes infrared waves that are then detected by infrared sensors or cameras. Additionally, some electronic devices, such as infrared LEDs, can also generate infrared waves.
Primary (P) waves : Primary waves, the fastest wave sent , come from the focus not the epicenter. (S) waves : Secondary waves, the second fastest wave sent out by an earthquake, it comes from the focus also.
Sound is produced when an object vibrates, creating changes in air pressure. These pressure variations travel through the air as waves, which we perceive as sound. The waves propagate through the air until they reach our ears, where they are detected and processed by the brain as sound.
The fastest waves produced by an earthquake are called P-waves, or primary waves, that push and pull the ground in the direction of their movement. These waves travel through solids, liquids, and gases and are the first to be detected by seismographs during an earthquake event.
Sound is produced when an object vibrates, creating disturbances in the surrounding air molecules. This vibration causes the air molecules to compress and expand in waves, transmitting the sound energy through the air. When these waves reach our ears, they are detected by our auditory system as sound.
Echolocation uses sound waves to navigate and locate objects in its environment. These sound waves are produced by the animal or device using echolocation, and they bounce off objects, returning echoes that are then detected to determine the object's location, size, and shape.
No, not necessarily. In order for something that vibrates to make a sound, the vibrations need to create pressure waves in a medium, such as air, that can be detected by our ears. If the vibrations do not create these pressure waves, then no sound will be produced.
Sound waves need a medium to propagate. Light-waves and other electromagnetic wave (radio, xray) do not.
Electromagnetic waves are detected using devices such as antennas, which convert the electromagnetic waves into electrical signals that can be processed and analyzed. These electrical signals are then used to detect properties of the electromagnetic waves, such as their frequency and intensity.