electronic configuration of Ge is 1s2 2s2 2p6 3s2 3p6 4s2 3d10 4p2. Thus, the orbital diagram of Ge is: G2 G1 | G2 | G3 G3 G3 G3 4 11 1
Ne:
The electronic configuration of Ne is 1s2 2s2 2p6. Thus, the orbital diagram of Ne is:
G2 G1 | G2 | G3 G3 G3 G3
I:
The electronic configuration of I is 1s2 2s2 2p6 3s2 3p6. Thus, the orbital diagram of I is:
G2 G1 | G2 | G3 G3 G3 G3 5
Sr:
The electronic configuration of Sr is 1s2 2s2 2p6 3s2 3p6 4s2 3d10 4p6. Thus, the orbital diagram of Sr is:
G2 G1 | G2 | G3 G3 G3 G3 11
Ge:
The electronic configuration of Ge is 1s2 2s2 2p6 3s2 3p6 4s2 3d10 4p2. Thus, the orbital diagram of Ge is:
G2 G1 | G2 | G3 G3 G3 G3 4 11 1
Br:
The electronic configuration of Br is 1s2 2s2 2p6 3
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Which evidence suggests that the materials in the asthenosphere are near their melting point? Choose the correct answer.
The asthenosphere is made of lighter elements.
The temperature of core samples taken from the asthenosphere is near 500 K.
The velocity of seismic waves increases suddenly when they enter the asthenosphere.
The velocity of seismic waves decreases suddenly when they enter the asthenosphere.
Answer: The asthenosphere is made of lighter elements.
Explanation:
The asthenosphere has obtained its name from Greek word called asthenis, which mean weak. The strength of asthenosphere is lower than that of overlying lithosphere. If the temperature of lithosphere raises high enough then asthenosphere will melt. This layer is ductile and deforms very easily.
7. If the reference to the first node is null, this means
a. the list is empty b. the list is full c. the garbage collector should be invoked d. the list is in an unstable state
The answer is (a) the list is empty. When the reference to the first node is null, it means that there are no nodes in the list and hence the list is empty.
In computer science, a linked list is a data structure that consists of a sequence of nodes, each containing a reference (a link) to the next node in the sequence. The first node in the sequence is called the head of the list, and if the reference to the first node is null, this means that the list is empty. In other words, there are no nodes in the linked list, and the head of the list is not pointing to any node. This is a common situation when the linked list has just been initialized or when all nodes have been removed from the list.
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Dipotassium phosphate is a buffer added to EMB that adjusts the pH to the proper starting level. What would be a possible consequence of adding buffers to raise the starting pH to 7.8?
A possible consequence of adding buffer, such as dipotassium phosphate, to raise the starting pH of a solution to 7.8 is the potential alteration of microbial growth patterns and selective inhibition of certain organisms.
Buffers are substances that resist changes in pH and help maintain the desired pH level in a solution. In the case of EMB (Eosin Methylene Blue) agar, which is commonly used for the selective isolation and differentiation of Gram-negative bacteria, the addition of a buffer to raise the starting pH to 7.8 could result in a higher alkaline environment.
This increase in pH may favor the growth of alkaliphilic or alkaline-tolerant microorganisms, while inhibiting the growth of acidophilic or acid-sensitive organisms. Some species of Gram-negative bacteria, which are the target organisms for isolation on EMB agar, may be negatively affected by the higher pH and show reduced growth or limited colony formation.
Additionally, altering the pH outside the optimal range for microbial growth can disrupt the delicate balance of the microbial community and potentially lead to the overgrowth or suppression of certain species. This can affect the accuracy of diagnostic tests, compromise the selective properties of the medium, and impact the identification of specific pathogens.
In conclusion, raising the starting pH to 7.8 by adding buffers to EMB agar may result in selective inhibition of certain organisms and alter the microbial growth patterns, potentially affecting the accuracy and reliability of the medium for its intended purpose. Careful consideration of the pH requirements and the specific goals of the microbial analysis should be taken into account when adjusting the pH using buffers.
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why could you see the agno3 diffusing out from the center well, but not the nacl diffusing from the peripheral wells?
The reason why you could see the AgNO3 diffusing out from the center well, but not the NaCl diffusing from the peripheral wells is due to a difference in their respective diffusion rates.
AgNO3 has a higher diffusion rate compared to NaCl due to the differences in their molecular weights and structure. Additionally, the concentration gradient of AgNO3 was higher in the center well compared to the peripheral wells, which led to a more visible diffusion. On the other hand, NaCl had a lower concentration gradient and a slower diffusion rate, resulting in a less visible diffusion. Thus, the difference in diffusion rates and concentration gradients accounts for the varying visibility of the two substances.
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How many significant figures are in 320001
which one of the following conditions is always true for a titration of a weak acid with a strong base? the equivalence point occurs at a ph equal to 7. if a colored indicator is used, it must change color rapidly in the weak acid's buffer region. a colored indicator with a pka less than 7 should be used. equal volumes of weak acid and strong base are required to reach the equivalence point. the equivalence point occurs at a ph greater than 7.
The correct option is D, The equivalence point occurs at a pH greater than 7 for a titration of a weak acid with a strong base. This is because the strong base will react with the weak acid to form a salt and water.
Titration is a commonly used analytical technique in chemistry for determining the concentration of an unknown solution by adding a known amount of a standardized solution of known concentration. The process involves slowly adding the standardized solution to the unknown solution until the chemical reaction between the two is complete. The point at which the reaction is complete is known as the equivalence point and can be detected using various indicators that change color or other properties at this point.
The main aim of titration is to accurately measure the concentration of a particular substance in a solution. For example, an acid-base titration can be used to determine the concentration of an acid in a solution by adding a known amount of a strong base until the equivalence point is reached. Similarly, a redox titration can be used to determine the concentration of a reducing or oxidizing agent in a solution.
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what does Le châteliers principle state?
Suppose you were given a substance and asked
to determine whether or not it was a plasma. Write
the characteristics you would look for to identify
the substance.
Answer:Particles in plasmas collide more often.
Plasma particles have high kinetic energy (they move quickly).
Plasma particles are far apart.
The ionized particles have no fixed volume
Explanation:
Plasma is the fourth form of matter which has freely moving electrons in it. The substance can be identified as plasma if its particles collide often and are far apart.
What is plasma?Plasma is a type of matter other than solids, liquids, and gas. They have similar properties to that of gas. Plasma particle collides are often like gases as they move freely in space. Like gases that have no definite shape and volume.
The plasma particles have ionic charges, positive and negative resulting in high kinetic energy. This property allows them to show electromagnetism and electrical conductivity.
The ionized particles are due to the high temperature that allows them to have the property of electrical conductivity and compression.
Therefore, the particles of plasma are ionized and have high kinetic energy.
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Question: Deducing A Rate Law From The Change In Concentration Over Time A Chemistry Graduate Student Is Studying The Rate Of This Reaction: 2C405 (G)-2C½ (G) + 502 (G) He Fills A Reaction Vessel With Cl20, And Measures Its Concentration As The Reaction Proceeds Time (Milliseconds) C1,0 0 0.900 M 10. 0.506 M 20. 0.352 M 30. 0.270 M 40. 0.219 M Explanation Check
The rate value of the rate constant is 11M^-1 min^-1.
Balanced chemical reaction:
\(2C_{4} O_{5} (g)+ 2Cl_{2} (g) +5O_{2}\)(g)
Balanced chemical reaction:
It is a second order reaction. Rate law is given by:
rate = k [\(C_{4} O_{5}\)]²
It is a second order reaction. Rate law is given by:
For a second order reaction :2A--products
The integrated rate law is given by:
Calculating rate constant for the given reaction:
1/A=kt+1/A
1/0.0210M = K×4 min +1/0.300M
1/0.0210M-1/0.300M=k ×4 min
44.28/4min=k
k=\(11M^{-1} min^-1}\)
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Complete question is here:
Use this data to answer the following questions. Write the rate law for this reaction. rate k Calculate the value of the rate constant ? X Round your answer to 2 significant digits. Also be sure your answer has the correct unit symbol
.
please help It's due today please
Answer:
i have no clue
Explanation:
Answer:
??????????
Explanation:
How many liters does a 70. 9 gram sample of Cl2 (g) occupy at STP?
A. 5. 60 L
B. 11. 2 L
C. 22. 4 L
D. 44. 8 L
70.9-gram sample of \(Cl_{2}\) gas will occupy Opton C. 22.4 liters at STP.
To determine the volume occupied by the sample of \(Cl_{2}\) (g) at STP, we can use the ideal gas law equation, PV = nRT
where P = pressure
V = volume
n = number of moles
R = ideal gas constant
T = temperature.
At STP (Standard Temperature and Pressure), the pressure is 1 atmosphere (atm) and the temperature is 273.15 Kelvin (K).
First, calculate the number of moles of \(Cl_{2}\) (g) using its molar mass. The molar mass \(Cl_{2}\) is 70.9 grams/mol.
Number of moles (n) = mass (m) / molar mass (M)
n = 70.9 g / 70.9 g/mol
n = 1 mol
Now, we can calculate the volume using the ideal gas law:
V = (nRT) / P
V = (1 mol * 0.0821 L·atm/mol·K * 273.15 K) / 1 atm
V ≈ 22.4 L
Therefore, the correct answer is C. 22.4 L.
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How many moles of oxygen gas occupy a 300 ml container at 2.0 atm and 125 degrees celsius?
The moles of oxygen gas occupy a 300 ml container at 2.0 atm and 125 degrees Celsius is 0.018 moles.
To calculate the number of moles of oxygen gas occupying a 300 ml container at 2.0 atm and 125 degrees Celsius, we can use the ideal gas law equation:
PV = nRT
P is the pressure of the gas (in atmospheres)
V is the volume of the gas (in liters)
n is the number of moles of the gas
R is the ideal gas constant (0.0821 L atm/(mol K))
T is the temperature of the gas (in Kelvin)
First, let's convert the given temperature from Celsius to Kelvin:
T = 125 degrees Celsius + 273.15 = 398.15 K
Next, we need to convert the volume from milliliters to liters:
V = 300 ml / 1000 ml/L = 0.3 L
Now we can rearrange the ideal gas law equation to solve for the number of moles (n):
n = (PV) / (RT)
Substituting the given values:
n = (2.0 atm * 0.3 L) / (0.0821 L atm/(mol K) * 398.15 K)
n = 0.018
Therefore, the number of moles of oxygen gas occupying the 300 ml container at 2.0 atm and 125 degrees Celsius is approximately 0.018 moles.
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What conditions are required for iron to rust?
The availablity of oxygen and moisture or water.
Describe the benefits of using nanoparticles instead of other, larger technology.
Answer:
it has a huge surface-to-volume ratio, very high porosity and completely different physiochemical properties.
Explanation:
idk if the answer is good !
sorry
What is energy transmitted from one place to another by light?
Write an ICE table for 1.67 M SO3 reacting with 2.35 M H₂O according to the equation SO3(g) + H₂O(g) H₂SO4(g) At equilibrium, the concentration of H₂SO4 is 1.23 M. What is the concentration of H₂O? 1.23 M None of the choices are correct. 1.12 M 0.44 M
The concentration of H₂O, given the equilibrium concentration of H₂SO₄ as 1.23 M and the reaction between 1.67 M SO₃ and 2.35 M H₂O according to the equation SO₃(g) + H₂O(g) ⇌ H₂SO₄(g), is 1.12 M.
To solve this problem, we can use an ICE table (Initial, Change, Equilibrium) to track the changes in concentration during the reaction.
The balanced equation for the reaction is:
SO₃(g) + H₂O(g) ⇌ H₂SO₄(g)
Using the given information, we have:
Initial concentration of SO₃ = 1.67 M
Initial concentration of H₂O = 2.35 M
Let's assume that x represents the change in concentration of H₂O. Since the stoichiometric coefficient of H₂O is 1 in the balanced equation, the change in concentration of H₂O is also x.
Using the equilibrium concentration given, we have:
Equilibrium concentration of H₂SO₄ = 1.23 M
Now, we can set up the ICE table:
SO₃ + H₂O ⇌ H₂SO₄
Initial: 1.67 M + 2.35 M ⇌ 0 M
Change: -x -x +x
Equilibrium: 1.67 - x 2.35 - x 1.23
Since the stoichiometric coefficient of H₂O is also 1, the equilibrium concentration of H₂O is equal to (2.35 - x) M.
Given that the equilibrium concentration of H₂SO₄ is 1.23 M, we can set up the equation:
1.23 = 2.35 - x
Solving for x, we find:
x = 2.35 - 1.23 = 1.12
Therefore, the concentration of H₂O is 2.35 - 1.12 = 1.12 M.
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In this lesson, you learned about how radiation is used in the medical field as an imaging tool and as a method of fighting cancer. There are both benefits and risks of using radiation as a medical tool. Using information from the article in the piece Nuclear Radiation in Medicine (Links to an external site.)Links to an external site. or your own research, answer the following questions.
What are the benefits of using radiation as a medical tool? List three benefits from the article or your own research.
What are the risks of using radiation as a medical tool? List three risks from the article or your own research.
Do you think the professionals in the medical field currently use radiation in the best way possible? If so, why? If not, how could they improve? List information from the article or your own research that supports your opinion.
Do you think radiation should be used as a tool in the medical field? Why or why not? List three facts from the article or your own research to support your point of view.
The benefits of using radiation as a medical tool are:
Supporting the design of medical and surgical treatments.Providing non-invasive, as well as painless assistance in disease diagnosisIt is used in Therapy monitoring.What are known to be risks of the use of radiation as a medical tool?The risks of using radiation as a medical tool are:
The possibility of developing cancer in the future is slightly increased by each surgery. In comparison to other imaging techniques, fluoroscopy for surgical guidance employs higher radiation doses.It may result in skin reddening and hair lossYes, I do think the professionals in the medical field are currently use radiation in the best way possible as it is used in the treatment of cancer and there has been amazing result.
Yes, I do think radiation should be used as a tool in the medical field because it is one that is often used in medical imaging procedures to detect a lot of health issues and also for treatment of diseases.
Therefore, based on the above, the benefits and risk listed above are correct.
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When water is lost, but electrolytes are retained, the first thing that happens is that
O both the ECF and the ICF become more dilute.
O there is an increase in the volume of the ECF.
O the osmolarity of the ECF falls.
O osmosis moves water from the ICF to the ECF.
O aldosterone is secreted.
When water is lost, but electrolytes are retained, the first thing that happens is that moves water from the ICF to the ECF.
About Intracellular Fluid (ICF)The fluid inside of cells, also called the cytoplasm or cytosol, makes up about 60% of the water in the human body, totaling about 7 gallons. Organelles like the nucleus, endoplasmic reticulum, mitochondria, lysosomes, and Golgi apparatus are suspended in and supported by the ICF. Also found in the ICF are cellular building blocks like sugars, proteins, carbohydrates, and lipids.
About Extracellular Fluid (ECF)ECFs are any body fluids that are not inside cells. The two main components of ECF are plasma and interstitial fluid (IF). The balance consists of cerebrospinal fluid, lymph, the synovial fluid in the joints, pleural fluid in the pleural cavities (lungs), pericardial fluid around the heart, peritoneal fluid in the peritoneal cavity (abdomen), and the aqueous humor of the eye. In mammals, milk is also considered an extracellular fluid.
The Movement of Solutes Between CompartmentsThe ICF has higher amounts of potassium, phosphate, magnesium, and protein compared to the ECF. The plasma has high concentrations of sodium, chloride, and bicarbonate, but lower levels of protein as compared to the ICF. While water moves passively via osmosis, sodium and potassium ions move in and out of cells using active transport ion pumps. The pumps are powered by adenosine triphosphate (ATP) to provide the energy to move the ions against their concentration gradients (i.e. sodium moves out of the cell and potassium is pumped in) and maintain the gradients inside and outside the cell.
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Convert a density of 55.3 lbs/ft3 into g/mL.
The density of 55.3 lbs/ft³ is 0.884 g/mL.
To convert density from pounds per cubic foot (lbs/ft³) to grams per milliliter (g/mL), we can use the following conversion factors:
1 pound = 453.59237 grams
1 foot = 30.48 centimeters (cm)
1 inch = 2.54 centimeters (cm)
1 milliliter (mL) = 1 cubic centimeter (cm³)
First, we convert pounds to grams:
55.3 lbs = 55.3 lbs * 453.59237 g/lb = 25050.364 grams
Next, we convert cubic feet to milliliters:
1 ft³ = (30.48 cm)³ = 28316.8466 cm³
1 cm³ = 1 mL
Finally, we calculate the density in g/mL:
Density = (25050.364 g) / (28316.8466 mL) ≈ 0.884 g/mL
Therefore, the density of 55.3 lbs/ft³ is approximately 0.884 g/mL.
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Which molecular geometry, of an ABn molecule, results in a polar molecule?
O tetrahedral
O trigonal pyramidal
O square planar
O linear
Answer:
trigonal pyramidal
Explanation:
In the case of water.
Baked lasagna should be reheated to what temperature for 15 seconds?.
Baked lasagna should be reheated to a temperature of 165°F for 15 seconds.
When reheating baked lasagna, it is important to ensure that it reaches a temperature of 165°F for at least 15 seconds to eliminate any potential bacteria and to ensure it is safe to consume. The 165°F temperature is the minimum safe temperature according to the U.S. Department of Agriculture (USDA) for reheating cooked leftovers or prepared foods, such as lasagna.
To reheat baked lasagna, place it in an oven or microwave and heat it up gradually until the internal temperature reaches 165°F. Check the temperature using a food thermometer to make sure it has reached the safe temperature. Once it has reached the desired temperature, it should be safe to consume.
It is important to handle food properly to prevent foodborne illness and ensure that it is safe to eat. Always follow food safety guidelines, such as washing your hands and kitchen tools and keeping food at safe temperatures, to prevent foodborne illness.
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What kind of intermolecular force is MgCl2 and why?
Answer:
(a) MgCl2 consists of Mg2+ and Cl- ions held together by ionic bonding forces;; PCl3 consists of polar molecules, so intermolecular dipole- dipole forces are present..
Explanation:
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Using the Kf value of 1. 2×109 calculate the concentration of Ni2+(aq) and Ni(NH3)62+ that are present at equilibrium after dissolving 1. 73 gNiCl2 in 100. 0 mL of NH3(aq) solution such that the equilibrium concentration of NH3 is equal to 0. 20 M.
[Ni2+], [Ni(NH3)62+] =
Using the Kf value of 1. 2×10⁹. The concentration of [Ni²⁺] is 0.113 M and the concentration of the [Ni(NH₃)₆²⁺] is 0.112 M.
The reaction is given as :
Ni²⁺ + 6NH₃ ⇄ Ni(NH₃)₆²⁺
The concentration of the nickel ion is given as :
[Ni²⁺] =(1.73 g NiCl₂× 1 mol NiCl₂ / 129.6 g × 1 mol Ni²⁺ / 1 mol NiCl₂) / 0.100 L
= 0.113 M
The kf = 1. 2×10⁹
kf = [Ni(NH₃)₆²⁺] / [Ni²⁺] [NH₃]⁶
1. 2×10⁹ = x / ( 0.113 - x ) (0.2 )
x = 0.112 M
[Ni(NH₃)₆²⁺] concentration = 0.112 M and [Ni²⁺] concentration is 0.113 M.
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how many electrons does phosphorus need to gain to have a stable outer electron shell
1
2
3
4
Answer:
3
Explanation:
Phosphorous valence is 5. so to get stable electronic configuration it has to gain 3 more electrons to its outer shell
Answer:
3
Explanation:
luckily, every phosphorus atom is looking to gain 3 electrons. It's a perfect match. But something to notice though, look how they have a bond with six electrons. That is called triple bond.
Changes in ______move matter from one state to another.
temperature
pressure
density
location
Answer:
temperature
Explanation:
Why have rainforest plants adapted to be a different shape and size than desert plants?
A
because rainforest plants are only raised in zoos
B
because in a rainforest environment, adaptation can happen overnight
с
because rainforest plants and desert plants need to store the same amount of
water
because the rainforest environment is different than the desert environment
Answer:
option D is correct answer of this question
option D is correct answer of this questionbecause the rainforest environment is different than the desert environment
option D is correct answer of this questionbecause the rainforest environment is different than the desert environment hope it will help
The reason of why rainforest plants adapted to be a different shape as compared to the desert plants is because of option d. as the rainforest environment is different than the desert environment.
Adaption of the rainforest plants to the different shapes and size?
It can be like:
Drip tips - where plants contains leaves with pointy tips.Buttress roots - These contain large roots that have ridges that develop a large surface area. Epiphytes - It lives on the branches of trees high up in the canopy.hence, The reason of why rainforest plants adapted to be a different shape as compared to the desert plants is because of option d. as the rainforest environment is different than the desert environment.
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3. Predict the change in electronegativity of the next elements in a row (C, Si), then check those properties. Do they match your predictions?
The elements which come after 'C' and 'Si' are 'Ge' and 'Sn'. The element 'F' is the most electronegative element. Down the group the electronegativity generally decreases.
What is electronegativity?The electronegativity of an atom is defined as the relative tendency or power of the bonded atom in a molecule to attract the shared pair of electrons towards itself.
In general the electronegativity decreases on moving down a group. The increase in the size of atoms and the shielding effect of inner electrons decreases the electronegativity.
Here 'Ge' and 'Sn' comes below 'C' and 'Si'.
Thus the electronegativity of the elements after 'C' and 'Si' decreases.
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If a lab requires each lab group to have 25ml of a solution and it takes 15 grams of CuNO3 to make 1 liter of solution how many grams are needed to make enough solution for 22 lab groups ?
We need to do some general algebra here.
We will find that you need 8.25 grams of CuNO₃ to make enough solution for the 22 labs.
We know that:
Each lab group needs 25 ml of solution.it takes 15 g of CuNO₃ to make one L of that solution.There are 22 labs.Because each lab needs 25 ml of solution, 22 labs will need that amount 22 times, so the total amount of solution needed is:
22*25ml = 550 ml
Now we know that we need 15 grams to make one liter of solution, and:
1 L = 1000ml
Then you need 15g to make 1000ml
and x (we want to find this amount) to make 550ml
Then we can write two equations (not actual equations, as these are different units) like:
x = 550ml
15g = 1000ml
Now we can take the quotient between these two equations:
x/15 g = (550ml/1000ml)
And now we can solve this for x:
x = (550ml/1000ml)*15g = 8.25g
So you need 8.25 grams of CuNO₃ to make enough solution for the 22 labs.
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PLEASE HELP ME!!
Water (H2O) is composed of the same elements as hydrogen peroxide (H2O2).
Why do these substances have different properties?
The molecules are the same.
Water has more atoms than hydrogen peroxide.
The atoms are arranged differently in each molecule.
The atoms are the same.
Answer:
The molecules are the same.
Explanation:
at which temperature would atoms of aHe(g) sample have the greatest average kinetic energy? (1) 25 c (2) 35 K
At 35 K temperature would atoms of aHe(g) sample have the greatest average kinetic energy
The relationship between the average kinetic energy of gas particles and temperature is direct.
Which one is the more energetic kinetic energy?In comparison to other fundamental states of matter, plasma has the highest kinetic energy. This is due to the fact that particles in a plasma travel more quickly than those in a corresponding solid, liquid, or gas.
The relationship between the molecules' average kinetic energy and Kelvin temperature is direct. 12mv2=kT, where k is a constant of proportionality. The velocity v is constant if the temperature T and the molecular mass m are both constant.
The gas molecules travel more quickly as the temperature rises, which increases their kinetic energy. Gases have the same kinetic energy at any temperature.
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