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What is the difference between open and closed systems in physics and how do they impact the flow of energy and matter within a system?
In physics, open systems allow energy and matter to flow in and out, while closed systems do not allow matter to enter or leave but allow energy to flow. Open systems can exchange both energy and matter with their surroundings, while closed systems can only exchange energy. This impacts the flow of energy and matter within a system by determining whether it can interact with its environment and receive inputs or outputs.
How do matter and energy work together to allow life?
Matter and energy are interconnected in living organisms through biochemical processes. Matter (such as nutrients) is taken in, broken down, and transformed to provide energy for various life processes. Energy is stored and transferred within cells to carry out functions required for life, such as growth, reproduction, and movement. This dynamic relationship between matter and energy enables life to sustain and propagate.
Does an isolated system allow matter and energy to enter or exit?
An air conditioning system an OPEN system
Is light energy a form of matter?
no, matter is not a form of energy a matter must exist in the either one of the three states of matter . wait a minute that isn't what i was asking i was asking was energy a state of matter and plus your forgetting plasma that makes up almost the entire universe and stars. by the way plasma is an electrically charged gas!!
What conversion does the second law of thermodynamics not allow?
The second law does not allow complete conversion of heat into work.
What energy conversion in your body enables you to get out of bed in the morning?
The stored chemical energy from food is converted into mechanical energy through the process of cellular respiration. This energy is used to power muscle contractions that allow you to get out of bed and move around.
In physical science not biology what is the difference between a closed system and an open system?
A closed system does not allow for energy or matter to enter or leave the system.
What is the difference between an open system and a closed system in the context of physics?
In physics, an open system allows for the exchange of matter and energy with its surroundings, while a closed system does not allow for the exchange of matter but can exchange energy with its surroundings.
What are the three smallest hypothetical objects in the universe?
Spacetime, strings, and the quantum field that allow time, energy, and matter to exist.
Difference between opensystem and closed system?
An open system allows for exchanges of matter and energy with its environment, while a closed system does not allow for exchange of matter but may allow exchange of energy. In an open system, there is a constant flow of input and output, whereas in a closed system, the total amount of matter remains constant.
Why most practical energy conversion devices used magnetic field as the coupling medium between electrical and magnetic system?
Magnetic fields are commonly used in energy conversion devices because they allow for efficient energy transfer between electrical and mechanical systems. This coupling medium enables devices such as electric motors and generators to convert electrical energy into mechanical energy (and vice versa) with minimal energy loss. Magnetic fields help create rotation or linear motion, making them versatile and widely used in various applications.
Why does not law of conservation of energy apply to the nuclear reactions?
A percentage of the matter is liberated as energy. Fusion reactions tend to convert more mass to energy than do fission reactions. Proton and neutron counts are preserved, but the mass of a helium nucleus is less than the rest mass of the particles of which it is comprised--two neutrons and two protons. The difference is known as the "mass defect," and is equivalent to the energy released in a fusion reaction. Similarly, fission reactions (the splitting apart of atomic nuclei) also liberates energy in a variety of forms. Note: Mass/Energy is conserved in ANY reaction. But as mass may be converted into energy, and vice versa, the mass itself is not necessarily conserved.
