Question

Study the various instances of transformation of you see around and give example

Answer 1

Answer: please amrk me as the brainliest!!!

Explanation:

Sun

atoms in the sun experience extremely high velocities relative to each other and crash. Work is used up in the form of speed and mass to transform into work of electromagnetic form. Photons.

Clouds

Atoms in a cloud receive the electromagnetic energy from the sun and transform it to other forms of electromagnetic energy like heat and color.

Rain

When atoms in the cloud gather together just enough to create considerable density, these groups of atoms/molecules have the potential to then fall under influence of gravity. The potential transforms into kinetic work.

Power plant

Atoms are heat up to considerable level of temperature so as to extract motion/work/current in the colder atoms out of the hot ones. Heat worked into electromagnetic waves spreading outwards.

Human body

Transforming chemical potential energy into heat and kinetic movement. Most of the food we eat is metabolized to move or exercise but just so to keep our bloods warm and hot at about 36 - 37 degrees c. Average Room temperature at earth surface is about 20 degrees.

Phone battery

Atoms/Ions in the battery start flowing in a circle due to a continuous displacement chemical reaction. transforming chemical potential energy into electromagnetic energy.

Earphones

Atoms in a small tiny drum respond to movements made by magnets to alternating shifting currents. transforming electromagnetic energy into kinetic movement.

Automobiles

Atoms in gasoline have the potential to react. Potential to burn. They decay into simpler structures releasing electromagnetic energy.

Ball bouncing on a floor

When the ball is dropped from a height, the atoms are all moving in a unidirectional velocity downwards. After collision with the ground, all that motion is passed on to the atoms of the floor and they jiggle and that motion is converted further into electromagnetic waves.

All the atoms distribute motion within themselves and decide who and which atom will get how much motion.

Motion is the information of the energy. Motion is also relative.

You can kinda see why energy is conserved. It allows the atoms to exchange information (push and pull) in a nice orderly way and be predictable and constant in the big picture.

Energy is movement which is basically everything you see around. All these movements are careful and rigorous and precise enough so far detected in our instruments.

Stuff is either moving or ‘waiting’ to move.

Moving or just sitting, waiting for their turn to move.

And all movement is the same. Pendulum, vibration, linear, rotational,orbital, radiational, thermodynamical etc.

The direction or curve of the motion doesn't matter as much as the quantity and quality.