One useful way is by metals, nonmetals, and metalloids. (See also The Periodic Table: Families and Periods.) Most of the elements on the periodic table are classified as metals.
Which solute produces the highest boiling point in a 0.15 m aqueous solution?
Final answer:
The solute that increases the boiling point the most in a 0.15 m aqueous solution is one that dissociates into the most particles, like NaCl, because it has a larger effect on boiling point elevation than a non-dissociating substance like glucose.
Explanation:
The solute that produces the highest boiling point in a 0.15 m aqueous solution is determined by the number of particles it provides in the solution upon dissolving. According to the colligative property known as boiling point elevation, the more particles a solute generates, the higher the increase in the boiling point. Salts such as NaCl dissociate into ions, thereby increasing the boiling point of the solution more than non-dissociating molecules like glucose. Therefore, a solute like NaCl, which dissociates into two separate ions Na+ and Cl- would generate a higher elevation than glucose at the same molality because the ionization of NaCl results in twice the number of particles in the solution.
Using the formula ΔT = Kb × m (where ΔT is the increase in boiling point, Kb is the molal boiling-point elevation constant, and m is the molality), we can calculate the boiling point elevation. With a given Kb for water of 0.51°C/m, a 0.15 m solution of NaCl would lead to a higher boiling point than a 0.15 m solution of a non-electrolyte like glucose. This is because each mole of NaCl provides 2 moles of particles, doubling the ΔT value compared to glucose which does not dissociate.
A student has a sample of a mineral that is too big to fit in a graduated cylinder. The density of the sample is known. How can the student determine the volume of the sample?
The formula for density is given as:
density = mass / volume
So given the density and the mass, we can get the volume. The mass can simply be measured using a weighing scale therefore the student can now determine the volume by rearranging the formula:
volume = mass / density
what tools can scientists use to measure the volume of liquid
When an electric current passes through liquid water, hydrogen gas passes accumulates at one electrode and oxygen accumulates at the other. Which of the following is true? A) A physical change has occurred, with energy is being absorbed. B) A chemical change has occurred, with energy being given off. C) A physical change has occurred, with energy being given off. D) A chemical change has occurred, with energy being absorbed.
Answer: Option (D) is the correct answer.
Explanation:
A chemical change is defined as the change which occurs due to change in chemical composition of a substance. A chemical change always leads to the formation of a new compound or substance.
For example, when an electric current passes through liquid water, hydrogen gas passes accumulates at one electrode and oxygen accumulates at the other.
Since, atoms of water are separating out. As a result, chemical properties will change. This means that a chemical change has occurred.
Also, bonds of water, ([tex]H_{2}O[/tex]) are breaking down. Hence, energy will be absorbed to break the bonds.
Whereas energy is always released upon formation of bonds.
Thus, we can conclude that the statement a chemical change has occurred, with energy being absorbed, is true.
If the average salinity of seawater is 35ppt, how many grams of dissolved salts will 500g of seawater contain?
Given an average seawater salinity of 35ppt (parts per thousand), the amount of dissolved salts in 500g of seawater is calculated to be 17.5g.
Explanation:The average salinity of seawater is given as 35ppt, which stands for parts per thousand. This means that for every 1000g of seawater, there are 35g of dissolved salts. Therefore, to find out how many grams of dissolved salts are in 500g of seawater, we need to set up a proportion.
Start by writing the given proportion: 1,000g seawater / 35g salt = 500g seawater / X g salt. Solving for X gives us the equivalent grams of salt in 500g water. X is calculated by cross-multiplying 35g by 500g and dividing the result by 1,000g. The calculation should look like this: (35g * 500g) / 1,000g = 17.5g.
So, 500g of seawater contains 17.5g of dissolved salts.
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What is the percentage error for a mass measurement of 17.7g, given that the correct value is 21.2g?
The percentage error for the mass measurement is 16.5%.
Explanation:To calculate the percentage error, we use the formula:
Percentage Error = (|Measured Value - Actual Value| / Actual Value) x 100%
In this case, the measured value is 17.7g and the actual value is 21.2g. Plugging in these values into the formula, we get:
Percentage Error = (|17.7g - 21.2g| / 21.2g) x 100% = |3.5g| / 21.2g x 100%
Since the absolute value of 3.5 is equal to 3.5, the percentage error is:
Percentage Error = (3.5g / 21.2g) x 100% = 16.5%
Which type of change occurs when the electrons of two atoms interact to form an atomic bond?
An atom with one valence electron combines with an atom with seven valence electrons.
what is likely to happen to the atom with one valence electron?
What is the smallest particle that has all the properties of a specific element?
PLZZ HELP ME I'M STUCK!!!!!! 90pts I'M DESPERATE!!!!!!!!!!!
Describe what would happen to both air temperature and soil temperature if cold weather were to pass through the area.
What can you learn about soil and air from looking at your graphs and your answers above?
What does the data mean for people involved in farming and agriculture?
I have the same assignment rn witht he graph but i only have 4 points plotted and connected by lines am i doing it wrong plzzz???
The air temperature would drop quickly compared to the soil because the difference between solid and gas. But the ground will stay cooler longer than the air because it contains it better than the air.
total kinetic energy of all the atoms that make up a sample of matter, would that be heat or mechanical????
Answer:
Mechanical energy
Explanation:
Mechanical energy is a result of kinetic energy plus potential energy of an atom due to the motion of electrons. As the electrons move away from the nucleus, that is to the outer orbitals the potential energy increases, and as the electrons move inward towards the nucleus the kinetic energy increases.
You have a 28.2-g sample of a metal heated to 95.2°c. you drop it in a calorimeter with 100. g of water at 25.1°c. the final temperature of the water is 31.0°c. assuming no heat loss to the surroundings nor the calorimeter, calculate the heat capacity of the metal.
The heat lost by the metal should be equal to the heat gained by the water. We know that the heat capacity of water is simply 4.186 J / g °C. Therefore:
100 g * 4.186 J / g °C * (31°C – 25.1°C) = 28.2 g * Cp * (95.2°C - 31°C)
Cp = 1.36 J / g °C
is helium is lightest monatomic element chemical properties
Helium is the second lightest element and the lightest monatomic element in its natural state. It is part of the noble gases, inert and does not react with other elements, and has various applications due to its low density.
Helium is a colorless, odorless, and tasteless element that is found naturally in the gas state. It is known for being the second most abundant element in the universe and the lightest monatomic element. A helium atom consists of a nucleus with 2 protons and usually 2 neutrons and is enveloped by 2 electrons, resulting in a complete valence shell making it chemically inert. Helium has an atomic number of 2, making it the second element in the periodic table right after hydrogen, which is the first and simplest element having only one proton and one electron and generally forms H₂ molecules. Contrary to helium, hydrogen is the lightest gas overall since it forms diatomic molecules. Nonetheless, if we consider single atoms, then helium atoms are indeed heavier than hydrogen atoms.
Helium's unique characteristics such as its low boiling point, low density, and lack of chemical reactivity arise from its filled electron shell, where no further electrons can be added. These properties make helium a noble gas and it is placed at the top of this group in the periodic table. Its low density of only 0.164 g/L at 25°C and 1 atm pressure also makes helium ideal for applications such as filling balloons.
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Which is more active (a) iron or copper, (b) iron or silver, (c) silver or copper? Arrange the three metals in order of decreasing activity.
Which of the following is not a base
A. KOH
B. NH3
C. NaOH
D. H3C6H5O7
How many molecules are contained in 1.30 mol O2
Answer in units of molec
How many molecules are in 1.70 mol He
Answer in units of molec
How many molecules are in 0.0800 mol NH3
Answer in units of molec
How many molecules are in 15.6 g NO2
Answer in units of molec
What is the mass of 3.64 mol of the element iron (fe)
Answer in units of g
To find the number of molecules in a given amount of substance, use Avogadro's number. The mass of a given number of moles can be calculated by multiplying the number of moles by the molar mass.
Explanation:To determine the number of molecules in a given amount of substance, we can use Avogadro's number. Avogadro's number is approximately 6.022 × 1023 and represents the number of particles in one mole of a substance.
For example, in 1.30 mol of O2, there would be 1.30 × 6.022 × 1023 molecules of O2.
To find the number of molecules in the other given amounts, you can use the same approach.
The mass of 3.64 mol of iron (Fe) can be calculated by multiplying the number of moles by the molar mass of iron. The molar mass of iron is approximately 55.85 g/mol, so the mass of 3.64 mol of iron would be 3.64 × 55.85 g.
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This is a model of a lithium atom. How likely is it that this atom would want to bond with another atom to fill it's outer shell?
A:This atom is very likely to bond with another atom.
B:This atom is only slightly likely to bond with another atom
C:This atom is not likely at all to bond with another atom.
And I Think The Answer Is A
Which change can be easily be reversed? question 23 options: both a physical and chemical change chemical change physical change neither a physical or chemical change?
Answer:
Physical change
Explanation:
A physical change is a reversible change in the physical properties of a substance.
Let’s look at an example:
Water. Water is made up of 2 hydrogen atoms and one oxygen atoms, H2O.
When the temperature of water decreases, the particles slow down and the liquid turns to ice. When it turns to ice, is it still H2O? Yes! When water changes states, it’s just a physical change. The chemical properties of water DO NOT change!! It’s physical change because when you melt ice, it can goes back to its original form: liquid (water). It can be reversed!
I really hope it helped! If so, please mark brainliest! Thanks! Have a great day! :)
Here are some examples of ways to cause physical changes:
The change that can be easily reversed is a physical change, because it doesn't alter a substance's basic identity - it just changes its form. This is unlike chemical changes, which fundamentally alter a substance and thus cannot be easily reversed.
Explanation:The change that can be easily reversed is a physical change. This is because physical changes don't alter the basic identity of the substance - they just change its form. For example, when you melt ice into water, that's a physical change because the water is still H2O, just in a different state. If you put it back in the freezer, it can change back into ice. This is unlike a chemical change, such as burning wood into ash and smoke. In this case, the wood can't be changed back into its original form because its chemical properties have been altered.
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When scientists make measurements in the laboratory, they use the system?
metric is the answer
Chemistry Help Please? 20 points?
Since each element produces a characteristic spectrum, what can you conclude about the location of the electron?
The characteristic spectrum an element produces indicates the location of its electron as each unique spectral line indicates the electron's movement between specific energy levels or shells in the atom.
Explanation:The location of an electron can be determined based on the spectrum that an element produces. When an electron absorbs energy, it moves to a higher energy level or shell, also known as an excited state. When it falls back to its original energy state, it emits energy in the form of electromagnetic radiation, producing a unique spectral line. This spectral line or pattern is characteristic of the element, and it can hint at an electron's location in a specific energy level or shell around the nucleus.
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Carl had four metal blocks.. Each block was a different type of metal, but it had the same size and volume. All four blocks were weighed on a balance and their masses recorded in the table below. Which one of these metals is the least dense?
Block 1: 65 grams
Block 2: 32 grams
Block 3: 100 grams
Block 4: 79 grams
options:
Block 1
Block 2
Block 3
Block 4
Answer is: Block 2 is the least dense.
d(metal) = m(metal) ÷ V(metal).
Volume is the same for all metals, so density only depends on mass of the block of the metal.
Smaller the mass of the block, smaller is the density:
d(block 1) = m(block 1) ÷ V.
d(block 1) = 65 g/V.
d(block 2) = 32 g/V.
d(block 3) = 100 g/V.
d(block 4) = 79 g/V.
What is the mass of 0.28 mol of iron
The mass of 0.28 mol of iron is 15.638 grams.
To find the mass of 0.28 mol of iron, we need to use the molar mass of iron. The molar mass of iron, as given in the periodic table, is 55.85 g/mol. This means that 1 mole of iron weighs 55.85 grams.
Step-by-Step Calculation:
1. Find the molar mass of iron:
According to the periodic table, the molar mass of iron (Fe) is 55.85 g/mol.2. Calculate the mass of 0.28 mol of iron:
We will use the formula:Mass = Number of moles × Molar massSo,
Mass = 0.28 mol × 55.85 g/molMass = 15.638 gTherefore, the mass of 0.28 mol of iron is 15.638 grams.
What is the substance produced by iron reacting with oxygen in the air?
The density of gold is 19.3 g/cm3. What is the mass of 15cm3 of gold?
Final answer:
The mass of 15 cm³ of gold, with a density of 19.3 g/cm³, is 289.5 g when calculated using the formula m = d × V.
Explanation:
The density of gold is 19.3 g/cm³.
To find the mass of 15 cm³ of gold, you can use the formula for density, which is mass divided by volume (d = m/V).
Since we know both the density and the volume, we can rearrange the formula to solve for mass (m = d × V).
In this case, the mass (m) would be 19.3 g/cm³ times 15 cm³, which equals 289.5 g.
The average density of whole milk is 1.034 g cm ^3. What is it’s density in lb gal ^-1?
Answer:
The average density of whole milk is 8.6291 lbs/gal.
Explanation:
The average density of whole milk is [tex]1.034 g/cm ^3[/tex].
1 g = 0.00220462 lbs
[tex]1 cm^3=0.000264172 gallons[/tex]
[tex]1.034 g/cm ^3=\frac{1.034\times 0.00220462 lbs}{1\times 0.000264172 gal}[/tex]
[tex]=8.6291 lbs/gal[/tex]
The average density of whole milk is 8.6291 lbs/gal.
If 28 ml of 5.8 m h2so4 was spilled, what is the minimum mass of nahco3 that must be added to the spill to neutralize the acid?
First we have to refer
to the reaction between the acid and the base:
H2SO4 + 2 NaHCO3 ---> 2 H2O + 2 CO2 + Na2SO4
From this balanced equation we can see that for every 1 mol
of acid (H2SO4), we need 2 mol of base (NaHCO3) to neutralize it. Given 28 ml
of 5.8 M acid, we need to find out how many mols of acid that is:
28mL * (1L/1000mL) * 5.8 mol/L = 0.1624 mol H2SO4
Since we need 2 mol of base per mol of acid, we need:
2*0.1624 mol = 0.3248 mol NaHCO3
MolarMass of NaHCO3 is 84.01 g/mol
0.3248 mol*(84.01g/mol) = 27.29 g NaHCO3
Answer: The mass of sodium hydrogen carbonate that must be added is 27.28 g
Explanation:
To calculate the number of moles for given molarity, we use the equation:
[tex]\text{Molarity of the solution}=\frac{\text{Moles of solute}\times 1000}{\text{Volume of solution (in mL)}}[/tex]
Molarity of sulfuric acid solution = 5.8 M
Volume of solution = 28 mL
Putting values in above equation, we get:
[tex]5.8M=\frac{\text{Moles of sulfuric acid}\times 1000}{28mL}\\\\\text{Moles of sulfuric acid}=0.1624mol[/tex]
The chemical equation for the reaction of sulfuric acid and sodium hydrogen carbonate follows:
[tex]H_2SO_4(aq.)+2NaHCO_3(aq.)\rightarrow Na_2SO_4(aq.)+2CO_2(g)+H_2O(l)[/tex]
By Stoichiometry of the reaction:
1 mole of sulfuric acid reacts with 2 moles of sodium hydrogen carbonate.
So, 0.1624 moles of sulfuric acid will react with = [tex]\frac{2}{1}\times 0.1624=0.3248mol[/tex] of sodium hydrogen carbonate
To calculate the number of moles, we use the equation:
[tex]\text{Number of moles}=\frac{\text{Given mass}}{\text{Molar mass}}[/tex]
Molar mass of sodium hydrogen carbonate = 84 g/mol
Moles of sodium hydrogen carbonate = 0.3248 moles
Putting values in above equation, we get:
[tex]0.3248mol=\frac{\text{Mass of sodium hydrogen carbonate}}{84g/mol}\\\\\text{Mass of sodium hydrogen carbonate}=(0.3248mol\times 84g/mol)=27.28g[/tex]
Hence, the mass of sodium hydrogen carbonate that must be added is 27.28 g
Which is an aspect of the kinetic-molecular theory and can be used to explain the behavior of plasmas?
Particles move independently of one another and are widely spaced.
In 1912, chemist Fritz Haber developed a process that combined nitrogen from the air with hydrogen at high temperatures and pressures to make ammonia. Specifically, the process involved combining one molecule of nitrogen gas (N2) with three molecules of hydrogen gas (H2) to get two molecules of ammonia (NH3). If you write this process in a symbol format, it looks like this:
N2 + 3H2 → 2NH3
I wanted to ask about the number of atoms that are involved. I got an answer of 8 atoms before and after, but I wasn't completely sure.
Which would have the highest concentration of h+ ions acetic acid or sodium hydroxide?
How many helium atoms are there in a helium blimp containing 537 kg of helium? express the number of helium atoms numerically?
To find the number of helium atoms in a blimp with 537 kg of helium, first, calculate the mass of one helium atom. Then determine the number of atoms in 1 kg of helium, and multiply by 537 to get the total number of helium atoms in the blimp.
Explanation:To calculate the number of helium atoms in a helium blimp containing 537 kg of helium, we must first know the mass of a single helium atom. A helium atom contains 2 protons, 2 neutrons, and 2 electrons. The mass of a helium atom can be approximated by considering the mass of the protons and neutrons, as the mass of electrons is negligible. This gives us a mass of about 4 atomic mass units (u) per helium atom. Since 1 u is approximately 1.66 × 10-27 kg, the mass of a helium atom is 4 × 1.66 × 10-27 kg.
To find the number of atoms in 1 kg of helium, you can divide 1 kg by the mass of one helium atom. Then, for 537 kg, multiply the number of atoms in 1 kg by 537. The Avogadro's number (6.022 × 1023 atoms/mol) is used as a conversion factor to convert moles of helium to atoms of helium. Conversely, to convert atoms to moles, you would divide the number of atoms by Avogadro's number, not multiply as stated incorrectly by the friend.
Here is the calculation in steps:
Calculate the mass of one helium atom: Mass of helium atom = 4 × 1.66 × 10-27 kg.Find the number of atoms in 1 kg of helium: Number of atoms in 1 kg = 1 kg / Mass of one helium atom.Find the number of atoms in 537 kg of helium: Number of atoms in 537 kg = Number of atoms in 1 kg × 537.