What is the molarity of 2.5 mol NaOH in a 1.0 L solution?

1. Systems with high potential energy tend to change in the direction of lower potential energy, obtaining energy from another objects. Systems with high potential energy tend to change in the direction of lower potential energy, releasing energy into the surroundings.

2. In the exchanges, the total energy is always conserved; energy is neither created nor destroyed. In the exchanges, the total energy is always changed; energy is created and destroyed.

3. In chemical and physical changes, matter never exchanges energy with its surroundings. In chemical and physical changes, matter often exchanges energy with its surroundings.

Explanation:

1. System with high potential energy tends to change in a direction to system with low potential energy. This system with high potential energy moving towards the direction of lower potential energy will give out their potential energy to the surrounding in form of heat, as they also receive kinetic energy from the surrounding. This is a law of conservation of energy. Energy from the system was transformed from one form to another.

2. Total energy in an exchange is always conserved or transformed.

It is conserved when energy is not lost( an enclosed system). It is changed or termed destroyed when energy is lost to the surrounding in form of heat ( an open system). Energy can neither be created not destroyed but can be transformed from one form to another. This means that the energy that we think was created are the potential energy in the system, while the energy we think was destroyed, are those energy given to the surrounding in form of heat.

3. In a chemical or physical change where matter never exchange energy with it surrounding are called closed system. The exchange of energy in this type of system is only wetin the system.

In a chemical or physical change where matter exchanges energy with it's surrounding are called open system. It is either an Exothermic reaction(the system gives out energy to the surrounding) or Endothermic reaction( the system takes energy from the surrounding).

5 0

3 years ago

How is the sun related to nuclear electromagnetic and heat energy?

Sholpan [36]

-The sun creates energy through nuclear fusion. -And kinetic energy creates heat and light energy.-Electromagnetic energy, are waves, such as radio waves, and radiation, they cause light and heat. And all different things, like Gamma rays, and ultraviolet rays created by the sun.

4 0

3 years ago

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Explain why the chlorophylls in light-harvesting complexes must absorb light of shorter wavelength than the light that would dir

icang [17]

Photosystems are the protein molecules that are optimized to harvest light. There are two types of photosystems: photosystem I (PSI) and photosystem II (PSII).

PSI is called P700 and PSII is called P680. It is called P700 because it absorbs the light at around 700 nm wavelength. P680 because it absorbs the light at around 680 nm wavelength.

In non-cyclic photophosphorylation, the photons of light is first transferred to P680, boosting an electron to a high energy level. The high-energy electron is passed to an acceptor molecule and replaced with an electron from water. This splitting of water releases the O2 we breathe.

In cyclic photophosphorylation, the light of wavelength 700 nm is absorbed by P700 and the electrons are the passes to the acceptor molecule by several carriers.

5 0

3 years ago