We communicate using sound waves by talking and listening to one another!
Sound waves are longitudinal waves; they travel from side to side, not up and down like transverse waves.
Whales sense sound waves through a fatty, oval shaped organ located in the forehead of all odontocetes (toothed whales). It is believed to be a bioacoustic component, meaning it focuses echolocation so as to use the least amount of energy to communicate.
Sound waves are not a type of electromagnetic wave. Sound waves are mechanical vibrations that require a medium, such as air or water, to propagate, whereas electromagnetic waves can travel through a vacuum.
The differences between light and sound are as follows:Light can be considered to be made of waves as well as particles. Sound is only a wave. It does not show particle nature.Light waves are electromagnetic waves while sound waves are mechanical waves.Light waves are transverse while sound waves are longitudinal.Light waves can travel in vacuum. Sound waves require a material medium to travel, and hence, cannot travel in vacuum.The speed of light in a medium is constant. The velocity of sound waves can change.In sound waves, the particles of the medium actually oscillate. In a light wave, the electric and magnetic vectors oscillate.Light waves can be polarized, but sound waves cannot.Light waves travel much faster than sound waves. The speed of light is a physical constant. Its value is exactly 299,792,458 metres per second in vacuuum. The speed of sound is 343 metres per second in dry air at 20°C.And finally, a simple one - you can see light while you can hear sound.
Some living things that do not communicate using sound waves are plants, which primarily communicate through chemical signals released into the air or soil, and some species of insects that use pheromones to communicate with each other over short distances. Additionally, some marine species, like certain types of fish and cephalopods, communicate using visual signals or bioluminescence.
We communicate using sound waves by talking and listening to one another!
You use sound waves to communicate.
Yes, sound waves can be produced underwater just like they are in air. In fact, sound travels faster and farther in water than in air because water is denser. Marine animals use sound waves to communicate, navigate, and locate prey.
yes
yes. eg. whales and dolphins. they communicate by using song waves under the water.
Plants do not use sound waves to communicate in the same way animals do. They primarily communicate through chemical signals released into the environment or through root interactions with fungi and other plants. While plants may respond to vibrations, such as from the wind or insect movement, there's currently no scientific evidence to support that they use sound waves for communication.
When sound originate in the water, the sound waves tend to refract down, toward the cooler water.
Yes, sound can travel underwater, but it travels differently compared to in air. Sound waves travel faster and farther in water due to its higher density, allowing marine animals to communicate and navigate using sound.
Yes, water can carry sound waves because sound waves travel through any medium that can transmit vibrations. In fact, sound travels faster and farther in water than in air because water is denser and the molecules are closer together, allowing for more efficient transmission of sound waves. Marine animals use sound to communicate and navigate underwater.
they use sound waves that mean somthing
Sound waves are important for communication and navigation in the ocean because they can travel long distances underwater, allowing marine animals to communicate with each other and navigate through the vast ocean environment. Sound waves are also used by marine animals to locate prey, avoid predators, and navigate in dark or murky waters where visibility is limited.
A bat uses clicks called echolocation. The sound waves bounce off whatever that certain species of bat feeds on. ( Bugs, fruit etc...) The bat's excellent hearing picks up that sound wave that bounces back which helps it find the exact location of it's prey.