Solid iodine is heated and immediately produces a toxic, purple, gas. Which phase change has occurred here?

Melting

Sublimation

Condensation

Evaporation

Answer:

The second and the third terms from the choices:

Explanation:

The greatest common factor of a set of numbers is found by:

         1) Write each number as a product of prime factors, each factor raised to the corresponding exponent (power);

         2) Choose only the common prime factors, with the least exponent.

Example: find the greatest common factor of 35x²y³ and 15xy²

                                         15xy² = 3¹ . 5¹ . x¹ . y²

Now apply the process to the given terms:

.

The terms that could have a greatest common factor of 5m²n², are those that include 5m²n², and those are:

These are the second and the third terms from the choices.

Answer:

5m⁴n³, and

10m⁴n¹⁵

Explanation:

Answer:

In a primary cell, two electrodes (one of copper and other of zinc) of metal atoms are used. These electrodes are dipped in an electrolyte solution that causes the metals to produce their respective positive and negative ions.

In this way, the flow of charges takes place and supply the electricity to the source.

Unlike a primary cell, a dry cell contains paste of an electrolyte instead of the solution. The contents of electrolyte paste react with each other through a chemical process and convert the chemical energy into electrical energy.

Answer:

In primary cells, an electric potential develops through chemical action between the plates within the cell. Positively charged ions of zinc enter the acid and free electrons released from zinc atoms collect on the zinc plate, which results in a negative charge. At the same time, positively charged ions of hydrogen from the acid remove free electrons from the copper plate, which becomes positively charged. Through a conducting material connecting the plates, free electrons move from the zinc plate to the copper plate as long as the chemical reaction lasts.

Dry cells also develop electric potential via chemical actions within the cell. Free electrons removed from the carbon rod collect on a zinc can. The rod exhibits a positive charge and the can becomes negatively charged; this allows for an electric potential to develop between these two items. Through a conducting material connecting the can to the rod, free electrons move from the can to the rod as long as the conducting path exists.

Explanation:

straight from Penn

Answer:

[tex]\text{C. } _{36}^{85}\text{Kr}[/tex]

Explanation:

Your nuclear equation is  

[tex]_{35}^{85}\text{Br} \longrightarrow \, _{-1}^{0}\text{e} +\, _{x}^{y}\text{X}[/tex]

The main point to remember in balancing nuclear equations is that

Then  

85 = 0 + y, so y = 85 - 0 = 0  

35 = -1 + x, so x = 35 + 1 = 36

The nucleus with atomic number 36 and atomic mass 85 is krypton-85.  

The nuclear equation becomes  

[tex]_{35}^{85}\text{Br} \longrightarrow \, _{-1}^{0}\text{e} + \, _{36}^{85}\text{Kr}[/tex]

Answer:

C

Explanation:

Answer:

ionic

Explanation:

Ionic bonds exist between Ca and F ions in CaF₂. Ionic bonds are interatomic bonds formed by the transfer of electrons from one atom to the other.

The donor atom here is Ca and it has two valence electrons. Fluorine is the receiving atom with 7 electrons in its outermost shell.

Ca would give one each of its two outermost electrons to the fluorine atoms to complete their octet. Ca ion would now resemble Argon and the flourine atoms would look more like Neon atoms.

This is an ionic bond

Answer:

[tex]\boxed{\text{-55.8 kJ/mol NaOH}}[/tex]

Explanation:

NaOH + HNO₃ ⟶ NaNO₃ + H₂O

There are two energy flows in this reaction.

[tex]\begin{array}{cccl}\text{Heat from neutralization} & + &\text{Heat absorbed by water} & = 0\\q_{1} & + & q_{2} & =0\\n\DeltaH & + & mC\Delta T & =0\\\end{array}[/tex]

Data:

V(base) = 100.0 mL; c(base) = 0.300 mol·L⁻¹

V(acid) = 100.0 mL; c (acid) = 0.300 mol·L⁻¹  

        T₁ = 35.00 °C;          T₂ = 37.00 °C

Calculations:

(a) q₁

[tex]n_{\text{NaOH}} = \text{0.1000 L } \times \dfrac{\text{0.300 mol}}{\text{1 L}} = \text{0.0300 mol}\\\\n_{\text{HNO}_{3}} = \text{0.1000 L } \times \dfrac{\text{0.300 mol}}{\text{1 L}} = \text{0.0300 mol}[/tex]

We have equimolar amounts of NaOH and HNO₃

n = 0.0300 mol

q₁ = 0.0300ΔH

(b) q₂

 V = 100.0 mL + 100.0 mL = 200.0 mL

m = 200.0 g

ΔT = T₂ - T₁ = 37.00 °C – 35.00 °C = 2.00 °C

q₂ = 200.0 × 4.184 × 2.00 = 1674 J

(c) ΔH

0.0300ΔH + 1674 = 0

          0.0300ΔH = -1674

                      ΔH = -1674/0.0300

                      ΔH = -55 800 J/mol

                      ΔH = -55.8 kJ/mol

[tex]\Delta_{r}H^{\circ} = \boxed{\textbf{-55.8 kJ/mol NaOH}}[/tex]

The neutralization of NaOH and HNO3 is exothermic, releasing heat which raises the temperature of the solution. The heat of the reaction can be calculated by considering the total mass of the solution and the rise in temperature, and should be divided by the moles of NaOH used to give the enthalpy change in kJ/mol.

When aqueous NaOH is mixed with HNO3 in a coffee cup calorimeter, a neutralization reaction occurs. The equation for this reaction is NaOH (aq) + HNO3(aq) → NaNO3(aq) + H2O(l). Since it is a strongly exothermic reaction, heat is released causing the rise in observed temperature. To determine the ΔH°rxn, calculate the heat change using the equation q = ms ΔT, where m is the total mass of the solution, s is the specific heat capacity of water (4.18 J/g°C), and ΔT is the change in temperature. Convert this energy to kj, and because no heat is lost to the surroundings, the heat absorbed by the solution is the same as the heat released by the reaction. This heat of reaction is then divided by the amount of NaOH used in the reaction to give the enthalpy change in kJ/mol NaOH, which can be used to pick one of the possible answers provided.

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The given question is incomplete, here is a complete question.

The reaction below shows a system in equilibrium.

[tex]H_2(g)+I_2(g)+Heat\rightarrow 2HI(g)[/tex]

How would a decrease in temperature affect this reaction?

A. The rate of formation of the gases would increase.

B. The equilibrium of the reaction would shift to the left.

C. The equilibrium would shift to cause the gases to sublime into solids.

D. The chemicals on the left would quickly form the chemical on the right.

Answer : The correct option is, (B) The equilibrium of the reaction would shift to the left.

Explanation :

The given reaction is endothermic reaction.

For an endothermic reaction, heat is getting absorbed during a chemical reaction and is written on the reactant side.

Any change in the equilibrium is studied on the basis of Le-Chatelier's principle. This principle states that if there is any change in the variables of the reaction, the equilibrium will shift in the direction to minimize the effect.

As, heat is getting absorbed during a chemical reaction. This means that temperature is getting increased on the reactant side.

If the temperature in the equilibrium is decreased, the equilibrium will shift in the direction where, temperature is getting increased. Thus, the reaction will shift in left direction that is towards the reactants.

Hence, the correct option is, (B) The equilibrium of the reaction would shift to the left.

Answer:

It will Cause IMMEDIATE health problems

Explanation:

Answer:

Mixture

Explanation:

- Can be separated by physical means

-  Does not have fixed ratios between components

Edu 2020

Answer:

Explanation:

The process is represented by the nuclear equation:

Where:

The superscripts to the leff of each symbol is the mass number (number of protons and neutrons), and the subscript to the left means the atomic number (number of protons).

Then, in this process a neutron is being transformed into a proton by the emssion of an electron (from inside the nucleus of the atom).

This electron is named beta (β) particle, and the process is called beta decay, because the neutron is changing into other subatomic particles.

The solution with the lowest freezing point would likely be the 0.015 m MgCl2 solution. This is due to the principle of freezing point depression, where a solution with more solute particles will generally have a lower freezing point than a solution with fewer solute particles.

The question asks which of the given solutions will have the lowest freezing point. This is a question related to chemistry, specifically colligative properties, one of which is freezing point depression.

In a process known as freezing point depression, solutions typically freeze at lower temperatures than pure liquids. This is because the presence of solute particles disrupts the ability of the solvent to form a regular pattern in the solid state, thus requiring a lower temperature to freeze.

To determine which solution has the lowest freezing point, we must consider both the molality of the solution and the number of solute particles produced by each formula unit of solute. Those that yield more particles upon dissociation have a greater effect on freezing point depression. In this case, 0.015 m MgCl2 should have the lowest freezing point as MgCl2 dissociates into three ions (Mg2+ and two Cl- ions), thus producing more solute particles per formula unit compared to the other given solutions.

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The solution with the lowest freezing point is A) 0.015 m MgCl₂, because it results in the highest effective particle concentration due to its dissociation into three ions in solution.

To determine this, we need to use the concept that the freezing point decreases as the concentration of dissolved particles increases. This is calculated using the van 't Hoff factor (i), which indicates the number of particles a compound dissociates into in solution.

MgCl₂ dissociates into 3 ions (1 Mg²⁺ and 2 Cl⁻), so its van 't Hoff factor is 3.

NaCl dissociates into 2 ions (1 Na⁺ and 1 Cl⁻), so its van 't Hoff factor is 2.

CH₃CH₂CH₂OH (propanol) does not dissociate in solution, so its van 't Hoff factor is 1.

Li₂SO₄ dissociates into 3 ions (2 Li⁺ and 1 SO₄²⁻), so its van 't Hoff factor is 3.

We then multiply the molality by the van 't Hoff factor to find the effective particle concentration for each solution:

A) 0.015 m MgCl₂: 0.015 m x 3 = 0.045 m

B) 0.0100 m NaCl: 0.0100 m x 2 = 0.020 m

C) 0.035 m CH₃CH₂CH₂OH: 0.035 m x 1 = 0.035 m

D) 0.0100 m Li₂SO₄: 0.0100 m x 3 = 0.030 m

The lowest freezing point corresponds to the highest effective particle concentration. Therefore, Solution A) 0.015 m MgCl2 has the lowest freezing point.

Answer:

activation energy

Explanation:

Answer:

Activation Energy

Explanation:

Energy of Activation is the energy which must be provided to a chemical or nuclear system with potential reactants to result in: a chemical reaction.

More activation energy is required because it would take more energy to add elements across single bonds than it would take for double bonds.

ionization energy or ionisation energy, denoted Eᵢ, is the minimum amount of energy required to remove the most loosely bound electron, the valence electron, of an isolated neutral gaseous atom or molecule. This option is incorrect.

Electronegativity, symbol χ, is a chemical property that describes the tendency of an atom to attract a shared pair of electrons towards itself. This option is incorrect.

NUclear energy is the energy released during nuclear fission or fusion, especially when used to generate electricity. This option is incorrect.

To find the volume of seawater containing 7.5 g of sodium, one must first convert this mass to the equivalent mass of NaCl, then calculate the total mass of seawater needed, and finally use the density of seawater to find the corresponding volume.

The question asks to calculate the volume of seawater that contains 7.5 g of sodium. First, we need to determine the mass of NaCl which corresponds to 7.5 g of sodium. Given that the atomic weight of sodium (Na) is approximately 23 g/mol, we can find the amount of NaCl using the ratio of the molecular weight of NaCl (58.44 g/mol) to that of Na. Once we have this mass, we can use the percentage of NaCl in seawater (3.5%) to find the total mass of seawater needed. Finally, given the density of seawater (1.02 g/mL), we can calculate the volume of seawater containing this total mass.

Final answer:

To calculate the volume of seawater that contains 7.5g of sodium, we use the concentration of NaCl in seawater and the atomic masses of Na and Cl. We find that approximately 529.00mL of seawater is needed to provide 7.5g of sodium.

Explanation:

To determine the volume of seawater containing 7.5 g of sodium, we must first understand the concentration of NaCl in seawater and the atomic mass of sodium. Seawater contains approximately 3.5% NaCl by mass. Given that the atomic masses of Na and Cl are 23.0 and 35.4 respectively, we can calculate the mass of sodium in seawater. Using the percentage by mass and the given density of seawater, we can then calculate the volume.

The mass percentage of NaCl in seawater is 3.5%, which means in 100g of seawater, there is 3.5g of NaCl. To find the mass of sodium only, we consider the molar mass ratio of Na to NaCl, which is 23.0 / (23.0 + 35.4). Therefore, the mass of sodium in 3.5g of NaCl is given by:
(23.0 / 58.4) × 3.5g.

To find the mass of Na in 100g of seawater, we multiply this by the mass percentage of NaCl in seawater:
(23.0 / 58.4) × 3.5g × 1.00 = 1.39g (rounded to two decimal places).

Thus, to find the amount of seawater containing 7.5g of Na, we would do the following calculation:
(100g seawater / 1.39g Na) × 7.5g Na= 539.57g of seawater.

Finally, to convert this mass to volume using the density of seawater (1.02g/mL), the volume is:
539.57g / 1.02g/mL = 529.00mL (rounded to two decimal places).

Therefore, approximately 529.00mL of seawater contains 7.5g of sodium.

Answer:

C.) High malleability.

Explanation:

There is a strong force between the metal ions and free floating electrons, meaning a substance with a metallic bond may be shaped and molded without breaking/fracturing due to their strength.

As the unknown substance is metal it has  a characteristic property of  metals which is high malleability.

An element is the simplest form of matter.Elements are further classified as metal,non -metals and metalloids. Metals possess luster and are malleable that is they can be drawn into thin sheets.They are also ductile and can be drawn into thin wires and are hard due to the strong ionic bonding present in them.

They are good conductors of heat and electricity due to the presence of mobile electrons .They have high density because of the compact arrangement of atoms .As a result of the arrangement of atoms,they have high melting points.

Malleability and ductility of metals is due to the presence of layers of atoms which can slide  over each other on application of force.

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Answer:

None of the above.

Explanation:

KI is not a molecular substance.

It is an ionic solid with the same crystal structure as NaCl.

The shapes given in the options are for molecules and three-dimensional ions.

Answer:

4.33g

Explanation:

The reaction equation is given as:

        2HgO → 2Hg + O₂

Given parameters:

Mass of HgO = 58.67g

Mass of Hg produced = 54.34g

Unknown:

Mass of oxygen produced = ?

Solution

From the reaction equation, using the mole concept, it is possible to determine the mass of oxygen gas produced.

To do this, we first determine the molar composition of the mass of the given mercury oxide. Then we use the balanced reaction equation to determine the mass of oxygen produced:

Number of moles of HgO = [tex]\frac{mass of HgO}{Molar mass of HgO}[/tex]

Molar mass of HgO = 200.6 + 16 = 216.6gmol⁻¹

Number of moles of HgO = [tex]\frac{58.67}{216.6}[/tex] = 0.271mol

From the reaction equation, we know that:

           2moles of HgO produced 1 mole of O₂

           0.271moles of HgO would also produce, 0.136mol

Therefore, mass of O₂ gas produced = number of moles of O₂ x molar mass

    Molar mass of O₂ = 16x2 = 32gmol⁻¹

Mass of O₂ gas = 0.136 x 32 = 4.33g

Answer:

B, C, & E

Explanation:

Fission reaction involves the splitting of heavy unstable atoms into stable lighter atoms, with the release of energy. Fission energy is advantageous in that it produces a huge amount of energy per mass compared to other energy sources (hence also used to make nuclear bombs). However, fission produces radioactive waste particles, such as beta and alpha particles, that have high ionizing energy and can be harmful to living things.

Answer:

B and E

Explanation:

Answer:

Balloons last between 12-21 hours filled with helium

Explanation:

latex balloons generally last between 12-20 hours filled with helium, and about 2-3 days when treated with Hi-Float

Balloons filled with helium deflate faster than balloons filled with heavier gases due to the effusion rate of helium.

Balloons filled with helium will stay inflated for a shorter time compared to balloons filled with heavier gases like air due to the greater effusion rate of helium.

Helium-filled balloons lose their buoyancy quicker because helium effuses much more rapidly through the microscopic pores in the rubber balloon.

Answer:

because reference table I shows that delta h for one mole of c2h6(g) is 84.0 kj so for 2 moles of c2h6(g) is 168.0kj

168 kJ/mol is the net amount of heat released when two moles of C₂H₆ are formed from its elements at 101.3 kpa and 298 K.

The standard reaction enthalpy for formation of the compound from the atoms or molecules at stable states that is temperature 298 K and Pressure 1 bar is called as enthalpy of formation.  

1 Atm (Atmospheric pressure) = 101.3 KPa (Kilopascal)

At 1 atm and 298 K the enthalpy of formation of ethane is -84 kJ/mol.

The enthalpy of formation of 1 mole of C₂H₆ is 84 kJ/mol because heat is released here so enthalpy of formation is positive.

Therefore, the enthalpy of formation of 2 mole of C₂H₆ = 2 × 84 kJ/mol

                                                                                            = 168 kJ/mol

Thus from the above conclusion we can say that 168 kJ/mol is the net amount of heat released when two moles of C₂H₆ are formed from its elements at 101.3 kpa and 298 K.

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Answer:

A main similitary all the elments have in that group is they all have 2 valance electrons

Explanation:

Explanation:

As it is known that elements present in group 2 are also known as alkaline earth metals.

Elements that belong to this group are beryllium, magnesium, calcium, strontium, barium, and radium.

Since, all of them are placed in group 2 this means that all these elements have 2 valence electrons.

Hence, all these elements will also have similar chemical properties.

Answer:

Explanation:

When the nucleus of an atom captures and electron, such electron combines with a proton and forms a neutron. Thus, the mass number remains the same (just a proton has been converted into a neutron) but the atomic number (the number of protons) decrease in one.

Then, the daughter nuclide will have the same mass number and the atomic number reduced in one.

The given parent isotope is    [tex]^{35}_{17}Cl[/tex],    which means that it has these features:

And the daughter nuclide after the electron capture will be:

          [tex]^{35}_{16}S[/tex]

Hence, the answer is the third choice.

Final answer:

The daughter nuclide from electron capture by 35Cl is 35S

Explanation:

When an atom undergoes electron capture, an electron from an inner shell combines with a proton in the nucleus, resulting in the conversion of a proton to a neutron.

For the given question, electron capture by 3517Cl results in the formation of a daughter nuclide with an atomic number one less than that of chlorine (16) and the same mass number.

Therefore, the daughter nuclide after electron capture by 3517Cl is 3516S.

Answer:

K₂CO₃    

Explanation:

Given parameters:

Number of moles of K = 0.104mol

Number of moles of C = 0.052mol

Number of moles of O = 0.156mol

Method

From the given parameters, to calculate the empirical formula of the elements K, C and O, we reduce the given moles to the simplest fraction.

Empirical formula is the simplest formula of a compound and it differs from the molecular formula which is the actual formula of a compound.

Solution

Elements                             K                       C                    O

Number of moles            0.104                0.052            0.156

Dividing by the

smallest                       0.104/0.052     0.052/0.052  0.156/0.052

                                            2                           1                     3

The empirical formula is K₂CO₃      

The empirical formula of a compound containing 0.104 mol of potassium (K), 0.052 mol of carbon (C), and 0.156 mol of oxygen (O) is K2CO3, based on the smallest whole number ratio of moles of each element.

To determine the empirical formula of a compound from the amount of moles of each element, you need to find the smallest whole number ratio of the moles of each element. For the compound mentioned with 0.104 mol K (potassium), 0.052 mol C (carbon), and 0.156 mol O (oxygen), you can do this by dividing each mole value by the smallest of the amounts of moles present.

In this case, the smallest value is 0.052 mol (carbon). So you would divide the number of moles of each element by 0.052 mol:

Therefore, the empirical formula is K2CO3.

Answer:

8/3 hours

Explanation:

12.5/100=1/8, 1/8*2=2/8=1/4 1/4*2=1/2 1/2*2 = 1 (whole)

we multiplyed 1/8 by two three times to get 1 so 8/3 hours is the answer

by the way i'm in 6th grade

Answer:

11.

Explanation:

[OH⁻] = 0.001 M.

∵ pOH = - log[OH⁻]

∴ pOH = - log(0.001 M) = 3.

∵ pH + pOH = 14.

∴ pH = 14 - pOH = 14 - 3 = 11.

The pH of a 0.001 M NaOH solution is 11.00, as NaOH is a strong base that completely dissociates in water to give a hydroxide ion concentration equal to its molarity, and the pH is calculated from the hydrogen ion concentration derived from the dissociation constant of water.

The question is asking for the pH of a 0.001 M solution of NaOH, which is a strong base. In a strong base like NaOH, it dissociates completely in water, which means that the concentration of the hydroxide ions, [OH⁻], will also be 0.001 M. To find the concentration of hydrogen ions, [H+], we use the formula [H+] = 10⁻¹⁴ / [OH⁻].

Therefore, [H⁺] = 10⁻¹⁴ / 0.001 M = 1.0 x 10⁻¹¹ M. The pH is then calculated using the formula pH = -log[H+], which gives us pH = -log(1.0 x 10⁻¹¹) = 11.00.

Answer : The correct option is, [tex]1s^22s^22p^63s^23p^64s^23d^{10}4p^5[/tex]

Explanation :

The given element bromine belongs to the group 17 and period 4. The symbol of bromine is, Br.

The atomic number of bromine = 35

The total number of electrons present in bromine element = 35

Electronic configuration : It is defined as the arrangement of electrons around the nucleus of an atom.

Hence, the correct electronic configuration of bromine is,

[tex]1s^22s^22p^63s^23p^64s^23d^{10}4p^5[/tex]

I believe the correct answer choice is A

Answer:

Fluorine

Explanation:

Flourine forms an ionic bond when combined with lithium. The valence electronic shell of lithium has just one single electron. Fluorine has 7 electrons in its valence shell but requires just a single electron to complete its octet. When lithium and fluorine combines, fluorine achieves its octet and lithium resembles Helium, a noble gas. This transfer of electron between Li and F is what results in an ionic bond between the two elements. It is also worthy to note that for an ionic bond to form, the electronegative difference between the two atoms should be greater than 0.7.

Fluorine has an electronegativity of 4.0 and that of Li is 1.0. The difference is 3.0. This implies that an ionic compound would be formed. The compound is LiF, Lithium Fluoride.

Answer:

It is always less than the theoretical yield

Explanation:

For many chemical reactions, the actual yield is usually less than the theoretical yield. This is due to possible loss in the process or inefficiency of the chemical reaction.

Answer:

It is always less than the theoretical yield.

Explanation:

Theoretical yield is obtained from stoichiometry calculation of a balanced equation. Actual yield is the amount of product formed from a reaction. Percentage yield is the ratio of actual yield to the theoretical yield of a product. Percentage yield is never 100 % or greater than 100%. Therefore,  Actual yield of a product always less than the theoretical yield.

Answer: D) Light is made up of photons

Light, Einstein said, is a beam of particles whose energies are related to their frequencies according to Planck's formula. When that beam is directed at a metal, the photons collide with the atoms. If a photon's frequency is sufficient to knock off an electron, the collision produces the photoelectric effect.

Option D, Light is made up of photons.

The photoelectric effect is a phenomenon where electrons are emitted from the metal surface when the light of sufficient frequency is incident upon. The concept of the photoelectric effect was first documented in 1887 by Heinrich Hertz and later by Lenard in 1902. But both the observations of the photoelectric effect could not be explained by Maxwell’s electromagnetic wave theory of light.

Light, Einstein said, is a beam of particles whose energies are related to their frequencies according to Planck's formula. When that beam is directed at a metal, the photons collide with the atoms. If a photon's frequency is sufficient to knock off an electron, the collision produces the photoelectric effect.

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Answer:

Chemical change

Explanation:

A solid that forms and separates from a liquid mixture is called Chemical change.

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Answer:

its a

Explanation:

The chemical equation that represents the reaction between vinegar (acetic acid) and baking soda (sodium bicarbonate) is:

[tex]\rm CH_3COOH(aq) + NaHCO_3(s) \rightarrow NaCH_3COO(aq) + H_2O(l) + CO_2(g)[/tex]

A chemical equation is a symbolic representation of a chemical reaction in the form of reactants and products.

The balanced equation for the reaction between vinegar and baking soda is represented as:

[tex]\rm CH_3COOH(aq) + NaHCO_3(s) \rightarrow NaCH_3COO(aq) + H_2O(l) + CO_2(g)[/tex]

This equation shows that acetic acid ([tex]\rm CH_3COOH[/tex]) reacts with sodium bicarbonate ([tex]\rm NaHCO_3[/tex]) to produce sodium acetate ([tex]\rm NaCH_3COO[/tex]), liquid water ([tex]\rm H_2O[/tex]), and carbon dioxide gas ([tex]\rm CO_2[/tex]).

Therefore, the above equation represents the complete balanced chemical equation for the reaction between vinegar (acetic acid) and baking soda (sodium bicarbonate).

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