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Which letter shows the ball when it has the maximum kinetic energy?
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What is the difference between sound and kinetic energy?
"Kinetic" is another word for "motion." Scientists use it to define energy that is moving. For example, waves in the ocean have kinetic energy, because they are moving. Something as big as a plane in flight has kinetic energy, but size is not important. Atoms, which are the tiniest particles of matter, are also in motion. They have kinetic energy, too. Kinetic energy can appear in many forms.  Radiant energy is kinetic energy that shows up as light, radio waves, and x-rays.  Thermal energy is kinetic energy that we call "heat." Heat is actually caused by the movement of vibrating molecules.  Electrical energy is kinetic energy that exists in the movement of electrical charges. Lightening and the electricity that powers your home are two examples.  Sound is also kinetic energy. It is created when a force causes an object or other matter to vibrate. We hear sound because force causes our eardrums to move.  Motion energy is the simplest form of kinetic energy. It comes from the movement of matter from one place to another. Water flowing is an example of motion energy. So is wind.
How can you prove that sound is a form of energy?
You can prove that sound waves have energy by using them to do work. Consider a microphone: when you speak into it, the diaphragm vibrates (i.e. it gains kinetic energy). This shows that sound waves have the capacity to do work and therefore have energy.
What is the power of certain forces of nature to do work?
YES, wind can produce WORK via controlled transfers of energy. First, an initial energy source is needed to produce this effect. Historical experimentation shows the most common source of energy would be radiant energy. Both the sun and the earth can provide the initial radiant energy. Provided we have a radiant energy source, we can focus on how to control the transfer from radiant energy (heat) to kinetic energy (wind). First we must look at the source of wind energy. The direct source is pressure differentials. On earth, this pressure differential is caused by radiant energy. The radiant energy that created the pressure differential will transfer to kinetic energy. In this case, the kinetic energy is measured in wind velocity. Transfer of Radiant to Kinetic energy can be accomplished by: (1) Create a pressure differential with the initial energy source (radiant) (2) Contain this pressure differential (radiant) (2a) Control the direction of the energy transfer (radiant to kinetic) (2b) Control the speed of the energy transfer (radiant to kinetic) (3) Utilize a mechanical device to transfer the kinetic energy to the desired output (assuming WORK = electrical energy output) Answer is Yes considering WORK = DC/AC (electricity) To complicate the above, all one has to do is (1) introduce lighter-than-air elements, and the control of thereof. (2) view the intensity of energy output via wavelengths (3) explore the energy output of wavelengths (frequency). NOTE: The one thing that seems to go unexplained or bypassed in most scientific questions is GRAVITY. Think about it like this.....if the earth's geomagnetic field can direct solar wind (750 km/s) and the sun's magnetic field (Heliosphere) can direct galactic wind (unknown km/s) think about the benefits of transferring solar/galactic wind to WORK :)
Which color of light shows maximum deviation when passing through prism?
Violet ....
Which colour of a light shows maximum deviation when passed through a prism?
Violet
What factors determine an object's kinetic energy?
Look at the equation for kinetic energy. It clearly shows that the kinetic energy depends on the object's mass, and its speed.
What energy is converted to sound energy in the wind?
Kinetic energy. Since wind has speed,the formular 0.5mv^2 shows that it has kinetic energy.
A squirrel running up a tree and sitting on a branch shows what kind of energy conversation (apex)?
Kinetic energy becoming potential energy.
How do you derive the equation e equals mc2?
E=mc2 is derived from the equation for kinetic energy Ke = mv2. The mathematics and concepts of special and general relativity shows that the absolute maximum velocity anything can have is the speed of light. The maximum amount of energy anything can possess is simply calculated from its mass and this maximum velocity squared.
How factors are used to calculate the kinetic energy of an object?
KE = (1/2)mv2 where m = mass (in kilograms), and v = velocity (in meters/second) this gives you the kinetic energy in units of Joules
A squirrel running up a tree and sitting on a branch shows what kind of energy conversation?
Kinetic energy converting to gravitational potential energy
What An Object falls towards the ground what Happens to the potential energy of the Object?
As an object falls from a higher level to a lower level, the gravitational potential energy that it had at the higher level changes to kinetic energy. As more and more potential energy changes to more and more kinetic energy, the increase of kinetic energy shows up in the form of greater speed.
What is the difference between sound and kinetic energy?
"Kinetic" is another word for "motion." Scientists use it to define energy that is moving. For example, waves in the ocean have kinetic energy, because they are moving. Something as big as a plane in flight has kinetic energy, but size is not important. Atoms, which are the tiniest particles of matter, are also in motion. They have kinetic energy, too. Kinetic energy can appear in many forms.  Radiant energy is kinetic energy that shows up as light, radio waves, and x-rays.  Thermal energy is kinetic energy that we call "heat." Heat is actually caused by the movement of vibrating molecules.  Electrical energy is kinetic energy that exists in the movement of electrical charges. Lightening and the electricity that powers your home are two examples.  Sound is also kinetic energy. It is created when a force causes an object or other matter to vibrate. We hear sound because force causes our eardrums to move.  Motion energy is the simplest form of kinetic energy. It comes from the movement of matter from one place to another. Water flowing is an example of motion energy. So is wind.
What is the different between sound and energy?
"Kinetic" is another word for "motion." Scientists use it to define energy that is moving. For example, waves in the ocean have kinetic energy, because they are moving. Something as big as a plane in flight has kinetic energy, but size is not important. Atoms, which are the tiniest particles of matter, are also in motion. They have kinetic energy, too. Kinetic energy can appear in many forms.  Radiant energy is kinetic energy that shows up as light, radio waves, and x-rays.  Thermal energy is kinetic energy that we call "heat." Heat is actually caused by the movement of vibrating molecules.  Electrical energy is kinetic energy that exists in the movement of electrical charges. Lightening and the electricity that powers your home are two examples.  Sound is also kinetic energy. It is created when a force causes an object or other matter to vibrate. We hear sound because force causes our eardrums to move.  Motion energy is the simplest form of kinetic energy. It comes from the movement of matter from one place to another. Water flowing is an example of motion energy. So is wind.
If women fastpitch softball the picture shows the ball at 3 30 40 mins in the base of the masses 108 kilograms what is the kinetic energy of the softball?
The kinetic energy of the softball at 3.30 m s the and a mass of 1.08 kilograms is 3.564 joules.
As an object falls toward the ground what happens to the kinetic energy of the object?
It gains kinetic energy because it is accelerating. Once it hits the ground, all of it's kinetic energy is converted different types of energy. Example: drop a rock from your head. When it hits the ground it create friction and there fore heat, heat is energy. It also makes a sound when it hits the ground, sound is energy. If you were to take the heat and the sound energy a d add them together, you would get the equal amount of potential energy the rock had when it was at your head ready to drop. Therefore, in this case, the kinetic energy was coverted to heat energy and sound energy.
How can you prove that sound is a form of energy?
You can prove that sound waves have energy by using them to do work. Consider a microphone: when you speak into it, the diaphragm vibrates (i.e. it gains kinetic energy). This shows that sound waves have the capacity to do work and therefore have energy.
