Both are forms of electromagnetic energy and travel at the same speed, which is the speed of light.
Secondary consumers receive their energy by consuming other species. The energy that those species had transfers to the carnivore. Energy never ends, it keeps transferring and can change forms. A useful diagram of this process can be found at http://users.rcn.com/jkimball.ma.ultranet/BiologyPages/F/FoodChains.html.
Gamma decay is primarily "energy only", in that it is the emanation of photons that represent energy. However, and this is important to understand, gamma does not exist by itself - gamma is a secondary reaction to a primary reaction that involves a change to the nucleus - a change that is usually represented by alpha or beta decay.So, with the exception of the few metastable forms of radionuclides, gamma still, ultimately, is preceded by particle emission. (Even in the metastable forms, the gamma is preceded by particle emission - its just that the event is delayed enough to "count it" as a separate event.)
X-rays, gamma rays, radio waves, and visible light are forms of electromagnetic radiation. Gamma rays are highest in energy compared to other electromagnetic radiations. Radio waves are least in energy in the whole electromagnetic spectrum.
The answer depends on the number of notes involved. A small number of notes (for example 3-8) is called a motif. A longer patter of notes spanning 2 or more measures of music is called a phrase.
Yes, chemical bonds store potential energy that is released when the bonds are broken. This energy can be released in the form of heat, light, or other forms of energy, depending on the type of bond and the elements involved.
The three forms of energy involved in muscle function are chemical energy stored in ATP molecules, mechanical energy used for muscle contraction, and thermal energy produced as a byproduct of muscle activity.
Electrical energy and it forms talking and satilite signal
The energy released by fault movement forms earthquakes.
Yes, energy can be stored in many forms and released again.
secret
When energy is released back into the environment, it can take various forms such as heat, light, sound, or motion energy. This can happen through processes like combustion, radiation, or mechanical work, depending on the source of energy and how it is being used. The type of energy released will depend on the specific context and mechanisms involved.
All forms of energy can be converted into other forms of energy through various processes such as transformation, transfer, and conversion. This includes mechanical energy, thermal energy, electrical energy, chemical energy, and nuclear energy, which can all be interconverted depending on the system and the interactions involved.
light and heat energy
Primarily thermal energy.
Chemical and electrical
In a crash, the kinetic energy of a moving object is converted into other forms of energy, such as heat, sound, and deformation of the object involved in the crash. The amount of kinetic energy involved in the crash depends on the mass and velocity of the objects involved.