How is electronegativity used in determining the ionic or covalent character of the bonding between two elements?

Answer:

Here's what I get  

Explanation:

In a single replacement reaction, one element must displace another element from its compound.

Thus, we must consider the reactivity series, because an element lower down in the series cannot replace one that is above it.

In a double replacement reaction, the cations change partners with the anions. All we need consider are the solubilities of the new cation-anion partners.

In a single replacement reaction, it is mandatory that one element displaces the other according to their reactivity on the reactivity series.

On the other hand, In a double- displacement reaction; the cations just exchange anions and vice versa.

An example of a single displacement reaction is;

An example of a double displacement reaction is;

As such, there's no preference in double displacement reactions as ions are swapped.

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Answer:

nucleus

Explanation:

it holds information needed to regulate most of the cell functions

The 'brain' of the cell is the nucleus, which regulates cell activities by managing genetic material and essential functions like growth and protein synthesis. It ensures the proper functioning of the cell, similar to the role of the human brain, which controls both mental and physical processes.

The "brain" of the cell is commonly referred to as the nucleus. Like the human brain, which is the control center of the body, the nucleus regulates the activities of the cell. It holds the cell's genetic material and is responsible for managing activities such as growth, metabolism, protein synthesis, and cell division.

The human brain, on the other hand, controls mental processes such as reasoning, imagination, memory, and language as well as physical processes like breathing and heartbeat. Both the nucleus and the human brain are essential for the proper functioning of their respective systems.

A typical day in the life of a cell involves the nucleus sending instructions for protein synthesis, which are necessary for the cell to carry out specific functions. Without the nucleus, a cell would not be able to operate efficiently, just as without the human brain, a body could not function.

Answer:

[tex]Ni^{2+}[/tex]

Explanation:

From the equation attached , [tex]Ni^{2+}[/tex] is reduced. This is because reduction is equivalent to decrease in the oxidation number. In the equation , The oxidation number of Ni is reduced from +2 to 0.

NB, The oxidation number of a neutral atom is zero

Answer:

20 Liters

Explanation:

If the pressure is supposed to be constant, one of Charles - Gay Lussac's laws can be used to solve the exercise. His statement says that "the volume of the gas is directly proportional to its temperature at constant pressure", mathematically it would be:

[tex]\frac{V1}{T1} = \frac{V2}{T2}[/tex]

Considering T₁ = 50 ° C; V₁ = 10.0 L; and T₂ = 100 ° C, we can calculate the volume V₂ Clearing it from the equation and replacing the values to perform the calculation:

V2= (V1 x T2) / T1  = (10.0 L x  100°C)  / 50 °C = 20 L

Therefore, the gas at 100 ° C will occupy a volume of 20.0 L.

To find the volume a gas will occupy at a higher temperature at constant pressure, use Charles's Law formula V1/T1 = V2/T2. After converting Celsius to Kelvin, solving the problem indicates the new volume at 100 °C would be approximately 11.54 L.

The question involves calculating the change in volume of a gas when it is subjected to a change in temperature, knowing that the pressure is held constant. This is a problem that can be addressed using Charles's Law, which states that the volume of a gas is directly proportional to its temperature on a Kelvin scale. To solve the problem, you must first convert the temperatures from Celsius to Kelvin by adding 273.15 to each temperature. Once you have the temperatures in Kelvin, you can use the formula V1/T1 = V2/T2, where V1 is the initial volume, T1 is the initial temperature, V2 is the final volume, and T2 is the final temperature.

In this case, the initial temperature is 50 °C (323.15 K) and the final temperature is 100 °C (373.15 K). The initial volume is 10.0 L, and you are solving for the final volume.

Using the formula:

V2 = V1 * (T2/T1) = 10.0 L * (373.15 K / 323.15 K) = 11.54 L

This is the volume the gas will occupy at 100 °C at constant pressure.

Answer:

'Low reactivity'  is common property of noble gases.

Explanation:

The properties of noble gases are:

Answer: This is because their valence electrons are located in the S - orbital

Explanation:

This is because their valence electrons are located in the S - orbital.

Answer:

27.7  × 10²³ atoms

Explanation:

Given data:

Number of moles of Potassium = 4.6 mol

Number of atoms = ?

Solution:

The given problem will solve by using Avogadro number.

It is the number of atoms , ions and molecules in one gram atom of element, one gram molecules of compound and one gram ions of a substance.

The number 6.022 × 10²³ is called Avogadro number.

For example,

18 g of water = 1 mole = 6.022 × 10²³ molecules of water

1.008 g of hydrogen = 1 mole = 6.022 × 10²³ atoms of hydrogen

For 4.6 moles of K:

One mole = 6.022 × 10²³ atoms

4.6 mol × 6.022 × 10²³ atoms= 27.7  × 10²³ atoms

Answer:Energy is coverted into a waterfall

Explanation:Answer:A waterfall is a sudden drop in a river as it flows over a rock cliff. This happens when the river passes from a layer of hard rock to a layer of softer rock, and the water erodes away the softer rock. A watershed is the term given to the land that drains water into a particular stream, lake, or river.

Answer:

The resulting NaCl solution  has a concentration of 0.4732 M

Explanation:

Concentration is the ratio of  amount of solute present  in a solution to  the amount of  solvent or total solution. Morality  is the commonly used unit of concentration.

[tex]Concentration=\frac{(\text{Moles of solute})}{(\text{Volume of solution})}[/tex]

Since we are given with same NaCl solution, we have

[tex]\frac{(M_1 V_1+M_2 V_2)}{(V_1+V_2 ) }[/tex]....................(1)

Where  

[tex]M_1= 0.690 m[/tex]

[tex]V_1= 309 ml[/tex]

[tex]M_2= 0.330 m[/tex]

[tex]V_2= 467 ml[/tex]

Now substituting the values in equation in (1)

=>[tex]\frac{( (0.690\times 309 )+(0.330\times 467))}{(309+467) }[/tex]

=>[tex]\frac{ (213.21\times 154.11)}{776}[/tex]

=>[tex]\frac{367.32}{776}[/tex]

=>0.4732 M

The resulting concentration when 309 ml of a 0.690 m NaCl solution is mixed with 467 ml of a 0.330 m NaCl solution is 0.473 M.

To find out the resulting concentration of NaCl when two solutions of different concentrations and volumes are mixed, we need to determine the total amount of NaCl and the total volume of the solution. The mole of NaCl in a solution can be determined by multiplying the molarity of the solution by its volume.

For the first solution, the number of moles of NaCl = volume (L) × molarity (M) = 0.309 L × 0.690 mol/L = 0.2133 mol

For the second solution, the number of moles of NaCl = volume (L) × molarity (M) = 0.467 L × 0.330 mol/L = 0.154 mol

The total moles of NaCl = 0.2133 mol + 0.154 mol = 0.367 mol

The total volume = volume of first solution + volume of second solution = 0.309 L + 0.467 L = 0.776 L

Finally, the resulting concentration = total moles / total volume = 0.367 mol / 0.776 L = 0.473 M

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Answer:

ethene is a limiting reagent here

Answer:

Electrons, Atomic Number

Explanation:

The total number of electrons is different for each and every element of the periodic table.

It is known as the atomic number of an element.

Mendeleev's Periodic Table's principle:

The properties of the elements is a periodic function of their atomic mass.

But, this was true only for the lighter elements.

So, the principle of the Long Form of the Periodic Table is:

The properties of the elements is a periodic function of their atomic numbers.

Answer: its mostly reflected.

Answer:

fossils

land features

Explanation:

if some lands had similar fossil types, it must mean that the lands were once in the proximity of each other. For example, if Africa had the same fossils as South America, it must mean that they once we're connected, so that the animals can move freely from one continent to another. Additionally, the land features of some continents are similar to a jigsaw puzzle. It seems as though we can connect the edges based on their shape.

Answer:

Sodium and Magnesium are the two different element having same number of neutrons.

Explanation:

Neutron:

It is a subatomic particle,but without an electric charge,present in all the atomic nuclei except those of ordinary hydrogen.

Its symbol is n with no charge on it.

sodium and magnesium have the same number of neutrons.

name of the element : Sodium

symbol: Na

atomic number: 11

number of protons: 11

number of neutrons: 12

number of electrons: 11

distribution of electrons: 2 , 8 , 1  

valency: 1

name of the element : Magnesium

symbol: Mg.

atomic number: 12

number of protons: 12

number of neutrons: 12

number of electrons: 12

distribution of electrons: 2 , 8 , 2  

valency: 2

Answer:

Details are below

Explanation:

A Compound is made of number of atom of element, that have a specific ratio.

Below are the details of elements and the number of its atoms:

1) NaOH

Element    :  #of atoms

Na                      1

O                        1

H                        1

__________________

Total                  3

---------------------------------

2) HNO₃

Element    :  #of atoms

H                      1

N                      1

O                      3

___________________

Total                 4

----------------------------------

3) Li₂O

Element    :  #of atoms

Li                     2

O                      1

__________________

Total                3

------------------------------------

4) Li₂SO₄

Element    :  #of atoms

Li                     2

S                      1

O                      4

____________________

Total                 7

------------------------------------------

5) NH₄Cl

Element    :  #of atoms

N                     1

Cl                     1

H                      4

____________________

Total                6

------------------------------------------

6) CaClO₃

Element    :  #of atoms

Ca                    1

Cl                     1

O                      3

____________________

Total                 5

------------------------------------------

7) H₂COCH₂

Element    :  #of atoms

C                     2

H                     4

O                     1

____________________

Total                 7

------------------------------------------

8) Mg(OH)₂

Element    :  #of atoms

Mg                   1

H                     2

O                     2

____________________

Total                5

------------------------------------------

9) Al(OH)₃

Element    :  #of atoms

Al                    1

H                     3

O                     3

____________________

Total                 7

------------------------------------------

10) NH₄C₂H₃O₂

Element    :  #of atoms

N                     1

H                     7

C                     2

O                     2

____________________

Total                12

------------------------------------------

11) NaC₂H₃O₂

Element    :  #of atoms

Na                     1

H                       3

C                       2

O                       2

____________________

Total                 8

------------------------------------------

12) (NH₄)₃ PO₄

Element    :  #of atoms

N                     3

H                     12

P                      1

O                      4

____________________

Total                20

----------------------------------------------

Each molecule has a distinct composition of atoms, and the total number of atoms varies based on the elements present and their respective quantities in each compound.

1. **NaOH (Sodium Hydroxide):**

  - Sodium (Na): 1 atom

  - Oxygen (O): 1 atom

  - Hydrogen (H): 1 atom

  - Total: 3 atoms

2. **HNO3 (Nitric Acid):**

  - Nitrogen (N): 1 atom

  - Oxygen (O): 3 atoms

  - Hydrogen (H): 1 atom

  - Total: 5 atoms

3. **Li2O (Lithium Oxide):**

  - Lithium (Li): 2 atoms

  - Oxygen (O): 1 atom

  - Total: 3 atoms

4. **Li2SO4 (Lithium Sulfate):**

  - Lithium (Li): 2 atoms

  - Sulfur (S): 1 atom

  - Oxygen (O): 4 atoms

  - Total: 7 atoms

5. **NH4Cl (Ammonium Chloride):**

  - Nitrogen (N): 1 atom

  - Hydrogen (H): 4 atoms

  - Chlorine (Cl): 1 atom

  - Total: 6 atoms

6. **CaClO3 (Calcium Chlorate):**

  - Calcium (Ca): 1 atom

  - Chlorine (Cl): 1 atom

  - Oxygen (O): 3 atoms

  - Total: 5 atoms

7. **H2COCH2 (Formaldehyde):**

  - Carbon (C): 2 atoms

  - Oxygen (O): 1 atom

  - Hydrogen (H): 4 atoms

  - Total: 7 atoms

8. **Mg(OH)2 (Magnesium Hydroxide):**

  - Magnesium (Mg): 1 atom

  - Oxygen (O): 2 atoms

  - Hydrogen (H): 2 atoms

  - Total: 5 atoms

9. **Al(OH)3 (Aluminum Hydroxide):**

  - Aluminum (Al): 1 atom

  - Oxygen (O): 3 atoms

  - Hydrogen (H): 3 atoms

  - Total: 7 atoms

10. **NH4C2H3O2 (Ammonium Acetate):**

   - Nitrogen (N): 1 atom

   - Hydrogen (H): 7 atoms

   - Carbon (C): 2 atoms

   - Oxygen (O): 2 atoms

   - Total: 12 atoms

11. **NaC2H3O2 (Sodium Acetate):**

   - Sodium (Na): 1 atom

   - Hydrogen (H): 3 atoms

   - Carbon (C): 2 atoms

   - Oxygen (O): 2 atoms

   - Total: 8 atoms

12. **(NH4)3PO4 (Ammonium Phosphate):**

   - Nitrogen (N): 3 atoms

   - Hydrogen (H): 12 atoms

   - Phosphorus (P): 1 atom

   - Oxygen (O): 4 atoms

   - Total: 20 atoms

In summary, each molecule has a distinct composition of atoms, and the total number of atoms varies based on the elements present and their respective quantities in each compound.

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Answer:

Only 10 mole of water will react with 10 mole of Na metal

and produce

                     10Na + 10H₂O --------------> 10NaOH + 5H₂

Explanation:

2Na + 2H₂O -------------> 2NaOH + H₂

Exothermic Reaction:

This reaction is supper exothermic and when sodium metal react with water it produce a lot of heat.

Limiting Reagent:

Limiting reagent is the amount of reactant in a chemical reaction that determines the amount of products that will be produce.

For instance we will use the same equation

2Na + 2H₂O --------------> 2NaOH + H₂

The reaction shows that 2 mole of sodium combine with 2 mole of water and will produce 2 mole of NaOH and 1 mole of Hydrogen gas.

if we increase the amount of  water  to 4 mole then the same amount of product will form, and the extra water will remain unracted.

Similarly if we increase amount of Na to 4 mole then only 2 mole will react and will produce same amount.

Now

if we add 10 mole of Na to a large Volume of water following thing will happen

Given Reaction:

                  2Na + 2H₂O --------------> 2NaOH + H₂

Data from Reaction:

                   2Na +  2H₂O --------------> 2NaOH + H₂

                   2 mole   2mole                   2mole      1mole

Applying unity formula:

2 mole of Na will react with 2mole of water

So

                       2 mole of Na ≅ 2mole of H₂O

                       10 mole of Na = 10 mole of H₂O

So the same reaction will occur and produce NaOH and hydrogen gas

So, From the above reaction

                          2 mole of Na ≅ 2mole of NaOH

if 2 mole of Na produces 2 mole of NaOH then 10 mole will produce how much NaOH

apply the unity formula

2 mole of the Na ≅ 2 mole of NaOH

10 mole of the Na ≅ X mole of NaOH

so by cross multiplication

2 mole of Na x X mole of NaOH ≅ 2 mole of NaOH x 10 mole of the Na

we have to find moles of NaOH ....so by rearrangement of the above equation

X mole of NaOH = 2 mole x 10 mole

                                       2 mole

X mole of NaOH= 10 mole

So

10 mole of Na will produce 10 mole NaOH

*****For Hydrogen Gas that produce :

                         2 mole of Na ≅ 1 mole H₂

If 2 mole of Na produces 1 mole of H₂ then 10 mole will produce how much H₂

apply the unity formula

2 mole of the Na ≅ 1 mole of H₂

10 mole of the Na ≅ X mole of H₂

so by cross multiplication

2 mole of Na x X mole of H₂ ≅ 1 mole of H₂ x 10 mole of the Na

we have to find moles of H₂ ....so by rearrangement of the above equation

X mole of H₂ = 1 mole x 10 mole

                                       2 mole

X mole of H₂ = 5 mole

So

The following will be reaction if 10 moles Na thrown in large volume of water

Only 10 mole of water will react with it

                     10Na + 10H₂O --------------> 10NaOH + 5H₂ and heat

Answer:

B) Cell Membrane

Explanation:

A) Chloroplasts are NOT in all cells, A is incorrect

C) Centrioles are for cell division, C is not correct

D) Cell walls are NOT in all cells, D is not correct

B) the cell membrane is responsible for materials traveling into and out of the cells to maintain homeostasis

Answer:

Density is a physical property but volume isn’t because density is intensive property but volume is extensive property.    

Explanation:

EXTENSIVE PROPERTY- A property of matter like volume and mass which depends on the amount of being measured is called extensive property.

INTENSIVE PROPERTY- A property of matter like colour and density which does not depend on the amount of the substance present is called intensive property.

Final answer:

STP for thermochemical equations is 273.15 K and 1 bar, previously it was 1 atm. It serves as a reference for reporting thermodynamic properties.

Explanation:

The standard conditions of temperature and pressure (STP) for a thermochemical equation are defined as a temperature of 273.15 K (0°C) and a pressure of 1 bar (100 kPa). It is important to note that previously, the old definition used a standard pressure of 1 atm. Under these conditions, we can calculate properties of gases and thermochemical data such as enthalpies of formation. For species in solution, the standard condition is a concentration of 1 Molar (1 mol/L). Pure substances are considered in their most stable form at 1 atm and at the standard temperature, unless otherwise noted in a specific text.

Significance of STP in Thermochemical Equations

The significance of STP in thermochemical equations lies in its use as a benchmark for reporting the thermodynamic properties of substances. This consistent baseline allows for the comparison and understanding of data, such as enthalpies of formation, which are essential for studying chemical reactions and processes.

The answer is option A - 0°C and 101 kPa. Standard conditions of temperature and pressure for a thermochemical equation are 0°C and 101 kPa.

Standard conditions of temperature and pressure (STP) for thermochemical equations are 0°C and 101 kPa, equating to 0°C (273.15 K) and 1 bar (100 kPa). This set of conditions is referred to as standard temperature and pressure (STP), which is defined as 0°C (273.15 K) and 1 bar (100 kPa). However, it's important to note that there have been different definitions over time, with an older definition using 1 atm (101.325 kPa) instead. For most thermochemical data and calculations, STP is used as a reference point to enable comparisons of the properties of different gases.

The question is:

Standard conditions of temperature and pressure for a thermochemical equation are _____.

A. 0°C and 101 kPa.

B. 25°C and 101 kPa.

C. 0°C and 0 kPa.

D. 25°C and 22.4 kPa.

Answer:

nani

Explanation:

omeo wa moo shindau nani

(proberly spelt it wrong too.)

Answer:

Explanation:

Torr:

Torr is the measure of pressure produced by one mmHg equal to the 1/760 of standard pressure used to the pressure of vacuum system.

Millimeter mercury mmHg:

It is the manometric pressure unit. It is defined as, the pressure exerted by column of mercury one millimeter high. it is represented by mmHg.

Torr to mmHg conversion:

Both are equal to each other.

1 torr = 1 mmHg

Torr to atm:

Torr is converted into atm by dividing the torr value 760.

mmHg to atm.

mmHg is converted into atm by dividing the torr value 760.

Kilopascal:

The kilopascal is the unit of pressure. It is represented by KPa.

it is the pressure generated by 10 g mass of substance on area of 1 cm².

There are 1000 pascal in one kilopasca.

one atm = 101.325 KPa

one atm = 101325 Pa

atm can be converted into KPa by multiplying the given atm value with 101.325.

For example:

4.1 atm × 101.325  kpa/ 1 atm

415.432 atm. kpa / 1atm

415.432 kpa

Kpa to atm:

415.432 kpa/101.325  kpa × 1 atm

4.1 × 1 atm

4.1 atm

Pressure units such as pascals (Pa), kilopascals (kPa), atmospheres (atm), millimeters of mercury (mm Hg), and torr are commonly used in chemistry. The standard conversion equivalencies enable accurate measurement when switching between these units. For example, to convert torr to atm, divide by 760, and to convert psi to kPa, multiply by 6.895.

Understanding pressure conversions is important in chemistry when dealing with gases. The most common units of pressure are pascals (Pa), kilopascals (kPa), atmospheres (atm), millimeters of mercury (mm Hg), and torr. The relations between these units are as follows:

1 bar = 100,000 Pa = 1.01325 atm

To convert these units, use the specified equivalencies. For example, to convert from torr to atm, use the following formula:

Pressure in atm = Pressure in torr / 760

To convert 32 psi to kPa: 32 psi * 6.895 = 220.64 kPa (as 1 psi = 6.895 kPa)

To convert 6.50 millibars to atm: 6.50 m bars / 1013.25 = 0.00642 atm (since 1 bar = 1.01325 atm, and 1 mbar = 0.001 bar)

It's essential to use these conversion factors correctly to obtain accurate pressure values in different units.

Answer:

Energy Conservation is the effort made to reduce the consumption of energy by using less of an energy service.

Energy conservation refers to both the physical principle that energy cannot be created or destroyed and the practical approach of reducing energy consumption and improving efficiency. It involves both changes in individual behaviors and technological advancements to lower energy use and waste.

Energy Conservation Defined

Energy conservation is an important concept in Physics that refers to two key ideas. Firstly, it encompasses the principle that energy cannot be created or destroyed, only transformed from one form to another. This is known as the Conservation of Energy principle. Secondly, in a more practical sense, energy conservation relates to methods and strategies aimed at reducing energy waste and enhancing efficiency. This includes behaviors like turning off lights when not in use, driving efficiently, and using energy-efficient appliances.

Conservation of energy ensures that we reduce our consumption, either by decreasing activities that use energy or by improving the efficiency with which we perform tasks. An example of increasing efficiency would be implementing technological advancements, such as better-insulated homes, which require less energy for heating.

In summary, energy conservation serves both as a fundamental physical law and as a practical approach to manage and reduce energy usage in our daily lives. This dual understanding facilitates the development of sustainable practices and the creation of more efficient technologies, aimed at minimizing our ecological footprint.

Answer:

So whilst Phosphorus is an anion, it will usually combine with Iron or Aluminium and act like a cation. The more fine colloids in the soil (such as clay) then the greater the ability of the soil to bind cations.

Explanation:

Answer:

wood shaving

Explanation:

fire would spread faster

hope that helps

Answer:

The pile of wood will catch fire more easily because the shavings of wood will be heated faster as compared to the hunk of wood.

Explanation:

The reasons for wood shaving will be burnt faster than hunk of wood are:

Therefore, the wood shavings will be burnt faster than the hunk of wood because of the smaller surface area and the combustion reaction will be faster than hunk of wood.

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Answer:

4.704625 kJ (or 4704.625 J) is the amount of heat absorbed when the temperature of 75 grams of water increases from 20.°C to 35°C.

Explanation:

The measurement and calculation of the amounts of heat exchanged by a body or system is called calorimetry.

In this way, there is a direct proportionality relationship between heat and temperature. The constant of proportionality depends on the substance that constitutes the body as its mass, and the product of specific heat is produced by the body's mass. So, the equation that allows to calculate heat exchanges is:

Q = c * m * T

Where Q is the heat exchanged for a body of mass m, constituted by a specific heat substance c and where T is the temperature variation.

In this case:

Then:

[tex]Q= 4.181 \frac{J}{g C} * 75 g *15 C[/tex]

Q≅4704.625 J

Being 1 kJ = 1000 J:

Q=4.704625 kJ

Finally, 4.704625 kJ (or 4704.625 J) is the amount of heat absorbed when the temperature of 75 grams of water increases from 20.°C to 35°C

When the temperature of 75 grams of water increases from 20 °C to 35 °C, the heat absorbed is 1125 calories, calculated using the specific heat formula (q = mcΔT).

The question asks about the amount of heat absorbed when the temperature of a certain amount of water increases. We can calculate this using the specific heat formula: q = mcΔT, where 'q' is the heat absorbed, 'm' is the mass of the water, 'c' is the specific heat of water, and 'ΔT' is the change in temperature.

Given: m = 75 g (mass of water), c = 1.00 cal/g °C (specific heat of water), and ΔT = 35°C - 20°C = 15°C (change in temperature).

Plugging these values into the formula gives: q = (75 g) x  (1.00 cal/g °C) x (15°C) = 1125 cal.

So, when the temperature of 75 grams of water increases from 20°C to 35°C, it absorbs 1125 calories of heat.

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Both are considered mixtures - that is, they are made up of two or more pure substances. ... A heterogeneous mixture appears to be made of different substances. A solution appears the same throughout. In the fluid phase (gas or liquid, or any combination of those) a solution is transparent (thought not colourless).

Final answer:

Heterogeneous mixtures have non-uniform composition and can be differentiated by eye, while solutions have uniform composition throughout and no settling occurs.

Explanation:

A heterogeneous mixture is a combination of two or more substances in which the composition is not uniform throughout the sample, and the individual substances can be differentiated by eye. Examples of heterogeneous mixtures include trail mix, salad, and blood. On the other hand, a solution is a type of homogeneous mixture where the composition is uniform throughout and no settling occurs. Solutions can be colored but are transparent, and the dissolved species are molecules or ions. Examples of solutions include air, simple syrup, and seawater.,

new SUBSTANCES are fomed

Answer:

The explanation is given below

Explanation:

Dalton was the first who putted forward the theory about atom. he describe the properties of atoms of the element. Dalton based his theory on the law of conservation of mass and the law of constant composition.

His theory has 5 basic postulates and these five principals are still true.

1. Dalton stated that all matter composed of atoms are very small in size. these smallest unit of matter (atom) take part in chemical reaction.

2. All the atoms of an element are similar in shape, size, and other properties but different from the atoms of other element.

3. This theory states all matter is made up of atoms and atom can not be created nor destroy.

4. Law of constant composition:

According to this: atoms of different elements combine in a simple, fixed and whole number ratio to form compound.

5. Atoms the element can combine in more than one ratio and form two or more compounds.

The atomic theory of Dalton explained many things.

Other models are its modification and explanation. Dalton was the first who recognize difference between atom of an element compound.

Although there are some discrepancies to explain other points but these 5 points are still workable and true.

The principle that still holds true from Dalton's atomic theory is the law of conservation of matter.

Even though new models were discovered after Dalton created his five principles, one principle that still holds true is the idea that atoms are neither created nor destroyed during a chemical change, which is known as the law of conservation of matter. This means that the total mass of matter present in a chemical reaction remains constant.

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