Good effects of mechanical waves include communication through sound waves, medical imaging through ultrasound waves, and seismology for studying earthquakes.
We know that a mechanical wave requires a medium through which to travel. The source puts the energy into the medium, and it propagates. A sound wave is a good example of this, and we can contrast it with an electromagnetic wave (like light). Light can travel through a vacuum; it doesn't require a medium for its propagation.
Mechanical waves, such as sound waves and seismic waves, require a material medium (solid, liquid, or gas) to travel through. These waves propagate by transferring energy from one particle to the next within the medium.
Negative effects of mechanical energy include the potential for injuries if not properly controlled or harnessed. Positive effects include the ability to perform work efficiently and power various machines that improve daily life and productivity.
Waves are often classified as transverse or longitudinal. The sideways vibrations of a string and the surface waves on water are a good examples of transverse waves. Sound waves in fluids (e.g. sound in air, sound traveling under water) are examples of longitudinal waves. In solids, you can have both transverse and longitudinal waves.
a wave is a phenomenon that transfers energy, not matter. there are 2 types of waves: transverse e.g. light and longitudinal e.g. sound, seismic im not that good at physics, but that's the best i can come up with, sorry ^^;;
No, sunlight and radiowaves are not compression waves. Sunlight consists of electromagnetic waves, while radiowaves are a type of electromagnetic wave in the radio frequency range. Compression waves are mechanical waves that require a medium to propagate, such as sound waves.
mechanical energy good effects: no waste Bad Effects: over use can harm
booom panes
A colloid is a mixture that appears to be a solution but it is actually a mechanical mixture. Two examples of a colloid are : MILK and STARCH DISSOLVED IN WATER.
We know that a mechanical wave requires a medium through which to travel. The source puts the energy into the medium, and it propagates. A sound wave is a good example of this, and we can contrast it with an electromagnetic wave (like light). Light can travel through a vacuum; it doesn't require a medium for its propagation.
Visible light wave sources. Light bulbs and stars are good examples.
Mechanical waves, such as sound waves and seismic waves, require a material medium (solid, liquid, or gas) to travel through. These waves propagate by transferring energy from one particle to the next within the medium.
Negative effects of mechanical energy include the potential for injuries if not properly controlled or harnessed. Positive effects include the ability to perform work efficiently and power various machines that improve daily life and productivity.
Hitting something with something else would count. Thats not a very good answers, but its right.
For effects plug-ins try the T-Racks plugins from IK Multimedia.
Big waves
Waves are often classified as transverse or longitudinal. The sideways vibrations of a string and the surface waves on water are a good examples of transverse waves. Sound waves in fluids (e.g. sound in air, sound traveling under water) are examples of longitudinal waves. In solids, you can have both transverse and longitudinal waves.