Sunlight is important for underwater creatures because it provides energy through photosynthesis for plants and algae at the base of the food chain. This energy then sustains the entire ecosystem, including fish and other marine animals that depend on these primary producers for food. Sunlight also helps regulate temperature and provides cues for behaviors like migration or reproduction.
No water plants do not depend on tadpoles in any way because tadpoles get their energy from water plants themselves
don't litter and recycle and just be as energy efficient a possible
All lifeforms need energy to survive. Energy is the resource that allows organisms to do things. What kinds of things might an organism do with energy? The answer to this question is as varied as the lifeforms that use energy. Some, like the African Lion, use energy to chase after prey. Other lifeforms, like many creatures we find in the depths of the Earth's oceans, use energy to create their own light. Living things use energy to grow, to defend themselves, and to move around
If there are no cats in heaven, then it wouldn't be much of a heaven. I believe that all living creatures have souls. A soul is energy, energy cannot be destroyed. So, it has to go somewhere! I believe that a cat's soul carries on into the afterlife.
The correct answer would be the sun or sunlight.
It is independent of the path travelled. Its depend only on initial and final position and is a example of conservative force.
The initial condition of a capacitor that has no energy stored is zero volts. The initial condition of an inductor that has no energy stored is zero amperes.
it is the actual energy shown at the beginning
How is this kind of geological energy different from biological energy (such as the calories creatures get when they consume food)? How are they the same
No, heat and work are not path functions. Heat and work are energy interactions between a system and its surroundings that depend on the process taken, not just the initial and final states. Path functions are properties whose values depend on the path followed to reach that state, such as change in temperature.
The initial energy was converted into various forms of energy depending on the system. It could have been converted into kinetic energy, potential energy, thermal energy, or other forms such as electrical or chemical energy.
Solar energy.
the sun
Changing the initial temperature of the copper will affect the amount of heat energy it has because temperature is directly related to the kinetic energy of the particles in the copper. A higher initial temperature means the particles have more kinetic energy and therefore more heat energy. Conversely, a lower initial temperature means less heat energy present in the copper.
The height reached by a ball thrown upward depends on its initial speed: the higher the initial speed, the higher the maximum height reached. This is because a greater initial speed gives the ball more kinetic energy, allowing it to overcome gravity and reach a higher position before gravity brings it back down.
The maximum amount of energy that can be converted from gravitational potential energy to kinetic energy occurs when all of the initial potential energy is converted to kinetic energy. This can be calculated using the equation: PE = KE, where PE is the initial potential energy and KE is the final kinetic energy. In this scenario, the maximum amount of energy is equal to the initial potential energy of the object.