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What is the equilibrium concentration of C if the reaction begins with 0.200 M A and 0.250 M B?

The atomic mass of uranium would be approximately 238.453 u.

To calculate the atomic mass of uranium, we need to take into account the percent abundance and mass of each isotope.

The atomic mass of an element is calculated by taking the weighted average of the masses of each isotope, where the weighting factor is the percent abundance of each isotope.

Let's begin by calculating the contribution of each isotope to the atomic mass of uranium:

To calculate the atomic mass, we can multiply the mass of each isotope by its percent abundance (in decimal form), and then add the products together:

Atomic mass of uranium = (238.050788 u x 0.997) + (235.043929 u x 0.003)

Atomic mass of uranium = 237.748013 u + 0.705132 u

Atomic mass of uranium = 238.453 u

Therefore, the atomic mass of uranium is approximately 238.453 u.

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Every atom shell of electrons will have its own unique set of quantum numbers. So the correct option is A.

This is due to the fact that each electron has a unique set of four quantum numbers that define its position and energy in an atom: principal quantum number (n), angular momentum quantum number (l), magnetic quantum number (mℓ), and spin quantum number (ms). These quantum numbers determine the state of the electron and its position within the atom. Each electron has a unique set of quantum numbers, making each atom shell of electrons have its own unique set of quantum numbers.

So the correct option is A.

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The magnitude of the electric force that the water molecule exerts on the chlorine ion is 1.08×10-58 N.

The first thing we need to know is that:

Electric force is given by;

[tex]F=kq1q2d2[/tex]

Where, k=Coulomb's constant=9×109, N⋅m2⋅C-2q1 and q2 are charges, d is distance between charges, thus this formula applies to point charges. However, in this question, we are not given point charges, but a dipole moment.

So we can use the equation:

[tex]F=E2p[/tex]

where, E is the electric field and, p is the dipole moment. Thus, to find the magnitude of the electric force that the water molecule exerts on the chlorine ion, we have to calculate the electric field of the dipole moment at the location of the chlorine ion, and then multiply the result by the magnitude of the dipole moment.

Part B:

Electric field of a dipole moment at any point on the axial line is given by;

[tex]E=2kp cosθr3[/tex]

where, k is Coulomb's constant,θ is the angle between the dipole moment and the axial line, and, r is the distance from the center of the dipole moment to the point where the electric field is measuredcosθ=1, because the angle between the dipole moment and the axial line is 0°.

Thus, we have;

[tex]E=2kp r3[/tex]

where, p is the magnitude of the dipole moment, r is the distance between the center of the dipole moment and the point where the electric field is measured.

Therefore, at the location of the chlorine ion, we have;

r=3.00×10-9m

Applying the formula for electric field

[tex]E=2kp r3E[/tex]

=2(9×109 N⋅m2⋅C-2)(6.17×10-30 C⋅m)(3.00×10-9m)3

=1.25×10-4 N/C

Thus, the magnitude of the electric force that the water molecule exerts on the chlorine ion is given by;

F=E2p

F=(1.25×10-4 N/C)2(6.17×10-30 C⋅m)

F=1.08×10-58 N

Therefore, the magnitude of the electric force that the water molecule exerts on the chlorine ion is 1.08×10-58 N.

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Answer:

1.03 mol of dihydrogen gas will evolve, with a volume slightly over 22.4 dm3 at ST P. Explanation: Moles of magnesium: 50.0 ⋅ g 24.31 ⋅ g ⋅ mol−1 = 2.06 mol Moles of hydrogen chloride gas: 75.0 ⋅ g 36.2⋅ g ⋅ mol−1 = 2.07 mol

Explanation:

HOPE THAT HELPS ! <3

Answer:

The correct answer is:

(1) decreases 1 pH unit

1. Temperature and salinity affect the flow of water in the ocean by creating density differences that drive ocean currents.

2. [image of warm and cold water mixing and creating a convection cell is mentioned below]

When warm water mixes with cold water in the ocean, a convection cell forms. Warm water rises and cold water sinks, which drives ocean currents. This process is influenced by other factors such as wind, Earth's rotation, and the shape of ocean basins.

What is density?

Density refers to the amount of mass per unit volume of water. At standard conditions (temperature of 4 degrees Celsius and pressure of 1 atmosphere), the density of pure water is approximately 1 gram per cubic centimeter (g/cm³). However, the density of water can vary depending on its temperature and salinity.

What is convection cell?

A convection cell is a circular pattern of fluid movement that arises when warm fluid rises and cold fluid sinks in a circular motion, creating a loop or cell. In the context of oceanography, convection cells can be formed when warm water rises and cold water sinks, either due to differences in temperature or salinity.

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Polar air is often described as dry because there is a large separation between the dew point and air temperature. This occurs because the air is usually very cold and has a low absolute humidity.

Polar air is often described as dry even though the relative humidity is high. This is because in polar regions there is a large separation between dew point and air temperature.In polar regions, the air is very cold, and therefore has very little moisture. This means that the relative humidity of the air is very high, but the actual amount of moisture in the air is very low. This is because cold air cannot hold as much moisture as warm air. When the temperature of the air drops, the amount of moisture that it can hold also decreases.

As a result, the relative humidity of the air increases, even though the actual amount of moisture in the air is very low.

The relative humidity is high because the dew point and air temperature are close together. This means that the amount of water vapor in the air is low, making it feel dry.

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The molar absorptivity A for Co(NH3)6³ at 475 nm is 251.5 kJ/mol.

What is Molar Absorptivity?

Molar absorptivity, also known as molar extinction coefficient, is a measure of how strongly a substance absorbs light at a particular wavelength. It is defined as the absorption coefficient divided by the concentration of the absorbing species and the path length of the sample:

To calculate A in J/molecule, we can use the formula:

A = hc / λmax

where A is the molar absorptivity in J/molecule, h is Planck's constant (6.626 x 10^-34 J s), c is the speed of light (2.998 x 10^8 m/s), and λmax is the wavelength of maximum absorbance in meters.

Converting the wavelength of maximum absorbance from nm to meters, we have:

λmax = 475 nm * (1 m / 10^9 nm) = 4.75 x 10^-7 m

A = (6.626 x 10^-34 J s) * (2.998 x 10^8 m/s) / (4.75 x 10^-7 m)

= 4.18 x 10^-17 J/molecule

Therefore, the molar absorptivity A for Co(NH3)6³ at 475 nm is 4.18 x 10^-17 J/molecule.

To convert this value to kJ/mol, we can use the formula:

A (kJ/mol) = A (J/molecule) * N (Avogadro's number) / 1000

where N = 6.022 x 10^23 mol^-1 is Avogadro's number.

Substituting the values, we get:

A (kJ/mol) = (4.18 x 10^-17 J/molecule) * (6.022 x 10^23 mol^-1) / 1000

= 251.5 kJ/mol

Therefore, the molar absorptivity A for Co(NH3)6³ at 475 nm is 251.5 kJ/mol.

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Answer:

Liquid nitrogen can be used to freeze biological tissue. Liquid nitrogen is -210°C which will stop all biological decomposition in the tissue and preserve it.

Explanation:

There is no limiting reactant because both reactants produce the same amount of products indicating that neither reactant is in excess and both are fully consumed in the reaction.

The limiting reagent is described as  the reactant that is completely used up in a reaction, and thus determines when the reaction stops.

calculating the number of moles of each reactant of the equation:

C2H4 + 3 O2 -> 2 CO2 + 2 H2O.

Moles of C2H4: not given, assume 1 mole

Moles of O2: 3 moles (given in the equation)

Moles of CO2 produced by 1 mole of C2H4: 2 moles (from the balanced equation)

Moles of H2O produced by 1 mole of C2H4: 2 moles (from the balanced equation)

Moles of CO2 produced by 3 moles of O2: 2 x 3/3 = 2 moles (from the balanced equation)

Moles of H2O produced by 3 moles of O2: 2 x 3/3 = 2 moles (from the balanced equation)

In conclusion, both reactants produce the same amount of products (2 moles of CO2 and 2 moles of H2O).

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A) To solve this problem, we can use the formula for the ionization constant of water:

Kw = [H3O+][OH-]

At 50 oC, Kw = 5.476 x 10-14. We can assume that [H3O+] and [OH-] are equal since we are dealing with pure water.

Therefore,

[H3O+] = [OH-] = sqrt(Kw) = sqrt(5.476 x 10-14) = 7.40 x 10-8 mol/L

pH = -log[H3O+] = -log(7.40 x 10-8) = 7.13

pOH = -log[OH-] = -log(7.40 x 10-8) = 7.13

To find the values for pure water at 60oC, we can use the new value of Kw at that temperature:

Kw = 9.550 x 10-14

[H3O+] = [OH-] = sqrt(Kw) = sqrt(9.550 x 10-14) = 3.09 x 10-7 mol/L

pH = -log[H3O+] = -log(3.09 x 10-7) = 6.51

pOH = -log[OH-] = -log(3.09 x 10-7) = 6.51

b) i) No, it does not mean that pure water becomes more acidic as the temperature rises.

ii) The correct answer is 2. As the temperature increases, the ionization of water increases and more H3O+ and OH- ions are formed. However, since the concentration of H2O is also decreasing due to the increase in temperature, the increase in ionization does not result in an increase in [H3O+] and pH actually decreases.

The primary distinction between these two negotiation strategies is that distributive negotiation does not take into consideration the demands of the other party when negotiating a settlement.

In a competitive negotiation style known as distributive bargaining, one party only gains when the other party loses.

Positional negotiating involves both sides criticising one other's proposals in an effort to convince the other that theirs is the best. By engaging in interest-based negotiation, both (or all) sides approach the problem and search for a solution that best advances their individual interests.

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The atom with the larger first ionization energy is Titanium. Option a.

The atom with the larger first ionization energy is Tin. Option b.

Ionization is the process of removing one or more electrons from an atom or molecule, resulting in the formation of an ion. This can be achieved through a variety of methods, such as exposure to high-energy radiation or contact with other charged particles.

Ionization energy is the amount of energy required to remove an electron from a neutral atom or molecule, resulting in the formation of a positively charged ion. This energy is typically measured in electron volts (eV) or kilojoules per mole (kJ/mol), and varies depending on the identity of the atom or molecule and the electronic configuration of its valence shell. Ionization energy is an important property of atoms and molecules, as it can provide insight into their reactivity and chemical behavior.

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   Let's choose sodium (Na) as an example, which is in period 3.

   Sodium has 1 valence electron.

   The element next to sodium on the periodic table is magnesium (Mg), also in period 3.

   Magnesium has 2 valence electrons, which is one more than sodium.

Answer:

The dependent variable would be the whitening of the teeth of the participants.

Explanation:

To produce ammonia (NH₃) from thin air, the reactants required are N₂ and H₂. So the correct option is b).

Ammonia is one of the most abundantly produced inorganic chemicals. In 2016, there are a number of large ammonia plants around the world that produced a total of 144 million tons of nitrogen (equivalent to 175 million tons of ammonia). That number will rise to 235 million tonnes of ammonia in 2021. China produced 31.9% of its global production, followed by Russia at 8.7%, India at 7.5% and the United States at 7.1%. More than 80% of the ammonia produced is used as fertilizer for agricultural crops.

Today, most ammonia is produced on a large scale using the Haber process, with capacities of up to 3,300 tons per day. Gases N₂ and H₂ are reacted at a pressure of 200 bar. A typical modern ammonia production plant first converts natural gas, LPG, or petroleum gas into gaseous hydrogen. The process of producing hydrogen from hydrocarbons is known as steam reforming. Hydrogen then combines with nitrogen to produce ammonia by the Haber-Bosch process.

One way to produce green ammonia is to use hydrogen from the electrolysis of water and nitrogen separated from air. These are fed into the Haber Process (aka Haber-Bosch), all of which produce sustainable power.

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The atoms that are cis to the hydroxyl (OH) substituent are the two carbon atoms in the ring that are directly adjacent to the OH group.

Cis-trans isomerism is a word used in chemistry that refers to the spatial arrangement of atoms within molecules. It is also known as geometric isomerism or configurational isomerism. The Latin prefixes "cis" and "trans" mean, respectively, "this side of" and "the other side of." Trans conveys that the functional groups (substituents) are on the opposite (transverse) sides of some plane, whereas cis implies that they are on the same side of some plane in the context of chemistry.

Cis-trans isomers are examples of stereoisomers, which are pairs of molecules with the same formula but distinct functional groups oriented in three dimensions. The absolute stereochemical explanation of E-Z isomerism does not necessarily equate to cis-trans notation.

The hydroxyl group (-OH) is attached to carbon number 1. The cis atoms are those that are attached to the same side of the ring. There are two atoms that are cis to the hydroxyl (OH) substituent, and these are atoms number 2 and 3. Therefore, the atoms that are cis to the hydroxyl (OH) substituent are atoms number 2 and 3 .

Thus, the cis to the hydroxyl (OH)  is (B) 2 and 3.

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The atomic mass of sulfur trioxide (SO3) is 82 amu.

Sulfur trioxide (SO3) has one sulfur atom and three oxygen atoms.

The atomic mass of sulfur can be calculated by subtracting the total mass of the oxygen atoms in sulfuric acid (3 x 16 amu) from the mass of sulfuric acid (98 amu) and then subtracting the mass of the remaining oxygen atom:

The atomic mass of sulfur is 34 amu.

To find the atomic mass of sulfur trioxide, we add the atomic masses of one sulfur atom and three oxygen atoms:

Therefore, the atomic mass of sulfur trioxide (SO3) is 82 amu.

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Answer:

Take 1600grams divide by 2

Answer:

Explanation:

The overall equilibrium equation can be obtained by combining the two given equations:

H2CO3 + OH- → HCO3- + H2O (1)

HCO3- + OH- → CO32- + H2O (2)

Adding equations (1) and (2), we get:

H2CO3 + 2OH- → CO32- + 2H2O

Dividing the second equation by the first, we get:

[CO32-][H2O]/[HCO3-] = K2

Multiplying the above equation with the first equation, we get:

[H2CO3][CO32-][H2O]^2/[HCO3-] = K1*K2

Thus, the equilibrium constant expression for the overall reaction is:

[K] = [H2CO3][CO32-][H2O]^2/[HCO3-]

where [K] = K1*K2.

No. According to solubility rule, we cannot use the Fe(NO3)3 rather than AgNO3 via analysis of precipitate of AgCl because no precipitate of cl- ion formed in Fe(NO3)3 .

A solubility chart having solubility rules is defined as a chart describing for different combinations of cations and anions whether the ionic compounds formed dissolve in or precipitate from a solution. This chart shows the solubility of various common ionic compounds in water, at a pressure of 1 atm. and under room temperature.

The following reactions are involved to determine Cl- concentration,

Case 1:  Fe(NO3)3 (aq.) + Cl-(aq.)   ----> FeCl3(aq.) + NO3-(aq.).

In this reaction involving aqueous solution of Fe(NO3)3 no precipitate of Cl- ion compound is formed .so this we can not use Fe(NO3)3 to determine %Cl- ion in solution.

Case 2 :

AgNO3(aq.) + Cl- (aq.)  ---> AgCl(precipitate) + NO3-.

This reaction involving aqueous solution of AgNO3 can be use to determine %Cl- ion concentration in solution via analysis of precipitate of AgCl .

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Answer: 1:1

Explanation:

Since Na trades place with Na it makes it 1:1

It's a negative value for ∆H°, indicating that the conversion of diamond to graphite releases energy. As a result, it is an exothermic reaction.

The conversion of diamond into graphite is exothermic. The enthalpy change of the reaction is -267.1 kJ.There are three reactions that take place in this process. Cdiamond (s) + O2 (g) → CO2(g) ∆H° = -395.4 kJ2 CO2 (g) → 2 CO(g)+O2 (g) ∆H° = 566.0 kJ2 CO2(g) → Cgraphite(s) + CO2 (g) ∆H° =-172.5 kJCdiamond (s) → Cgraphite (s) ∆H°= ?

The conversion of diamond to graphite is an endothermic process. It has a positive value of ∆H°. Therefore, the heat is absorbed by the surroundings. According to the first two reactions, the formation of CO and CO2 from the combustion of diamonds produces energy.

The net reaction for the conversion of diamond to graphite takes place as follows:

Diamond (s) + 2 O2(g) → Cgraphite (s) + 2 CO2 (g)

The energy change for this reaction can be determined by combining the above three reactions. The enthalpy change is obtained by subtracting the sum of the enthalpies of the reactants from the sum of the enthalpies of the products. The enthalpy change of the reaction is calculated as follows:

∆H°=ΣH°(products)−ΣH°(reactants)

∆H°=(−172.5)+(2×−393.5)+(566.0)−[(0)+(0)+(-395.4)+(2×0)]

∆H°=−267.1 kJ

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Assuming that the glass is made entirely of silicon dioxide (SiO2), which is a common component of glass, we can calculate the number of silicon atoms based on the molecular weight of SiO2 and the weight of the glass.

The molecular weight of SiO2 is approximately 60 g/mol. Therefore, 6.240 g of SiO2 corresponds to:

6.240 g SiO2 × (1 mol SiO2/60 g SiO2) = 0.104 mol SiO2

Since each molecule of SiO2 contains one silicon atom, the number of silicon atoms in the piece of glass can be calculated by multiplying the number of moles of SiO2 by Avogadro's number (6.022 × 10^23 atoms/mol):

0.104 mol SiO2 × (6.022 × 10^23 atoms/mol) = 6.26 × 10^22 silicon atoms

Therefore, there are approximately 6.26 × 10^22 silicon atoms in a piece of glass weighing 6.240 g, assuming the glass is made entirely of SiO2.

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To draw a Lewis structure that obeys the octet rule for each of the molecules and ions listed, simply follow the steps outlined above and make sure that each atom has a formal charge of zero or close to zero.

For each of the molecules and ions listed, you can draw a Lewis structure that obeys the octet rule by following these steps:

1. Identify the central atom: The first atom listed in each molecule or ion is the central atom.

2. Count the number of valence electrons: Each atom has a certain number of valence electrons based on its position in the periodic table.

3. Form single bonds: Make single bonds between the central atom and each of the other atoms to use up the available valence electrons.

4. Add lone pairs: If the central atom still has electrons remaining, add lone pairs to satisfy the octet rule.

5. Check the formal charges: Make sure all atoms have formal charges of zero or close to zero.

Let's look at each molecule and ion individually:

a. POCl3, SO42−, XeO4, PO43−, ClO4−:

POCl3: The central atom is phosphorus (P) and it has 5 valence electrons. We form single bonds between the P atom and each of the other atoms, giving P a total of 8 electrons. The formal charge of each atom is zero.

SO42−: The central atom is sulfur (S) and it has 6 valence electrons. We form single bonds between the S atom and each of the other atoms, giving S a total of 8 electrons. The formal charge of each atom is zero.

XeO4: The central atom is xenon (Xe) and it has 8 valence electrons. We form single bonds between the Xe atom and each of the other atoms, giving Xe a total of 8 electrons. The formal charge of each atom is zero.

PO43−: The central atom is phosphorus (P) and it has 5 valence electrons. We form single bonds between the P atom and each of the other atoms, giving P a total of 8 electrons. The formal charge of each atom is zero.

ClO4−: The central atom is chlorine (Cl) and it has 7 valence electrons. We form single bonds between the Cl atom and each of the other atoms, giving Cl a total of 8 electrons. The formal charge of each atom is zero.

b. NF3, SO32−, PO33−, ClO3−:

NF3: The central atom is nitrogen (N) and it has 5 valence electrons. We form single bonds between the N atom and each of the other atoms, giving N a total of 8 electrons. The formal charge of each atom is zero.

SO32−: The central atom is sulfur (S) and it has 6 valence electrons. We form single bonds between the S atom and each of the other atoms, giving S a total of 8 electrons. The formal charge of each atom is zero.

PO33−: The central atom is phosphorus (P) and it has 5 valence electrons. We form single bonds between the P atom and each of the other atoms, giving P a total of 8 electrons. The formal charge of each atom is zero.

ClO3−: The central atom is chlorine (Cl) and it has 7 valence electrons. We form single bonds between the Cl atom and each of the other atoms, giving Cl a total of 8 electrons. The formal charge of each atom is zero.

c. ClO2−, SCl2, PCl2−:

ClO2−: The central atom is chlorine (Cl) and it has 7 valence electrons. We form single bonds between the Cl atom and each of the other atoms, giving Cl a total of 8 electrons. The formal charge of each atom is zero.

SCl2: The central atom is sulfur (S) and it has 6 valence electrons. We form single bonds between the S atom and each of the other atoms, giving S a total of 8 electrons. The formal charge of each atom is zero.

PCl2−: The central atom is phosphorus (P) and it has 5 valence electrons. We form single bonds between the P atom and each of the other atoms, giving P a total of 8 electrons. The formal charge of each atom is zero.

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The He element is the one that is hardest to ionize.

The correct answer is He.

An object is categorised as an element if it cannot be reduced to a simpler form. It is possible to recognise them by their particular atomic number. The elements are organised into groups in the periodic table based on their atomic numbers, and those having related characteristics are underlined.

An element is any substance made entirely of a certain type of atom, which are the building blocks of all matter. We know that each element is composed of protons, neutrons, and electrons. Some of the tiniest components in all of nature are these.

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Typically, you must identify the x- and y-axes, which represent the two variables being measured or compared, in order to label a graph.

The graph's shape must be examined in order to determine the type of relationship between the variables. The relationship is considered to be linear if the graph depicts a straight line. The relationship is non-linear if the graph shows a curve. To determine whether the relationship is positive or negative, you would also need to look at the line's slope and direction. The relationship is positive if the line slopes upwards from left to right; this indicates that as one variable rises, so does the other. The relationship is negative if the line slopes downward from left to right, indicating that one variable increases while the other decreases.

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Option (d) is correct. Toluene undergo undergo nitration in HNO3/H2SO4 to yield a product mixture with the highest ortho : para ratio. Because toluene has less steric hindrance.

Toluene is defined as a substituted aromatic hydrocarbon. Toluene is a colorless, water-insoluble liquid with the smell associated with paint thinners. Toluene is a mono-substituted benzene derivative consisting of a methyl group attached to a phenyl group. The IUPAC name of toluene is methylbenzene. Steric hindrance is defined as the slowing of chemical reactions due to steric bulk. Steric hindrance manifested in intermolecular reactions whereas discussion of steric effects often focus on intramolecular interactions. It is often exploited to control selectivity such as slowing unwanted side-reactions.

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The complete question is,

Which of the following mono alkyl benzenes undergo nitration in HNO3/H2SO4 to yield a product mixture with the highest ortho : para ratio ?

A. ethylbenzene

B. propyl benzene

C. tert-butylbenzene

D. toluene

Burning your mouth on a hot spoon(option D) is an example of heat transfer through conduction, as the spoon is in direct contact with your mouth.

Conduction is the transfer of heat or electrical energy between two objects that are in direct contact with each other, or between two parts of the same object that are at different temperatures.

In conduction, the energy transfer occurs due to the collision of molecules in the objects or materials. When two objects are in contact, the molecules of the warmer object vibrate more rapidly, colliding with the molecules of the cooler object, which have less energy.

These collisions transfer thermal energy from the warmer object to the cooler object, until both objects reach the same temperature.

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