As a summer intern at the National Institute of Standards and Technology, a student performed three measurements to determine the density of water at 25 oC to four significant figures. She obtained the following results. The known density of water at 25 oC to three significant figures is 0.958 g/mL. Trial Density (g/mL) 1 5.01 2 4.95 3 5.10 The measurements were ________ Group of answer choices neither sufficiently precise nor accurate. both sufficiently precise and accurate. sufficiently accurate but not precise. sufficiently precise but not accurate. not repeated an adequate number of times.

Answer:

siks creo que creo que siks

Answer:

It should be 1. 1.2 X 10^24

Explanation:

Answer:

\(\boxed {\boxed {\sf D. 0.440 \ mol \ NaOH}}\)

Explanation:

To convert from moles to grams, the molar mass is used (mass of 1 mole). The values are the same as the atomic masses on the Periodic Table, but the units are grams per mole (g/mol) instead of atomic mass units.

We are given the compound sodium hydroxide (NaOH) and we need to look up the molar masses of the individual elements.

The formula for the compound has no subscripts, so there is 1 mole of each element in 1 mole of the substance. We can simply add the molar masses.

This means there are 39.9967693 grams of sodium hydroxide in 1 mole.

Use the molar mass we found as a ratio.

\(\frac {39.9967693 \ g \ NaOH}{ 1 \ mol \ NaOH}\)

Since we are converting 17.6 grams of NaOH to moles, we multiply by this value.

\(17.6 \ g\ NaOH *\frac {39.9967693 \ g \ NaOH}{ 1 \ mol \ NaOH}\)

Flip the ratio so the units of grams of NaOH cancel.

\(17.6 \ g\ NaOH *\frac {1 \ mol \ NaOH}{ 39.9967693 \ g \ NaOH}\)

\(17.6 *\frac {1 \ mol \ NaOH}{ 39.9967693}\)

\(\frac{17.6 }{ 39.9967693} \ mol \ NaOH\)

\(0.4400355406 \ mol \ NaOH\)

The original measurement of grams has 3 significant figures, so our answer must have the same. For the number we calculated, that is the thousandth place.

The 0 in the ten thousandths place (in bold above) tells us to leave the 0 in the thousandth place.

\(0.440 \ mol \ NaOH\)

17.6 grams of sodium hydroxide are equal to 0.440 moles of sodium hydroxide.

84.2 ml of 0.120 m HCL are needed to completely neutralize 50.0 ml of 0.101 m Ba(OH)2 solution.

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Answer:

Explanation:I believe the mass percent of nitrogen in NH4Cl N H 4 C l is 26.19%. I might be right but I had this same question on my eoc

Answer:

So, 53.49 g (M) of NH4Cl N H 4 C l contains 14.01 g (m) of N . So, the mass percent of nitrogen in NH4Cl N H 4 C l is 26.19%.

Explanation:

the answer is 26.19%


WHAT IS NH4CH

It was reborn in the united states people used it for equants


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This indicates that it is a proton acceptor, which qualifies it as a Bronsted base.

Any species that can accept a proton and needs one pair of electrons to bond to the H+start text, H, end text, start superscript, plus, end superscript is referred to as a Brnsted-Lowry base. Since water is amphoteric, it can function as both a Brnsted-Lowry acid and a base. A Bronsted-Lowry base is a compound that can accept a hydrogen ion, whereas a Bronsted-Lowry acid can donate one. A Lewis base is a substance that can give up two electrons, whereas a Lewis acid can take in two electrons.

Here,

It qualifies as a Bronsted base because this suggests that it is a proton acceptor.

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Answer:

D

Explanation:

Option D gives the correct model of C7H16. From the option, one will discover that the model has 7 carbons in the backbone. If you count the attached hydrogen, you will discover that the hydrogen is 16 in total.

This model or skeletal structure of this element represents heptane. Heptane or n-heptane is known to be a straight-chain compound and an alkane. It's chemical formula can also be written as: H₃C(CH₂)₅CH₃ or C₇H₁₆.

This compound is known to be one of the main components of gasoline. It is known to be a volatile organic compound and a clear and colorless liquids with a petroleum-like odor.

Answer: D

Explanation: Just took the test

Answer:

According to Charles law

Explanation:

volume is directly proportional to absolute temperature

1. LiCl (Lithium chloride) CsBr (Cesium bromide) NaCl (Sodium chloride).

3. Group 1 elements, also known as alkali metals, form 1+ ions because they have one valence electron in their outermost energy level.

4. The formula of the sulfide ion is S2-.

5. The ions in NaCl stay together due to electrostatic attraction between the oppositely charged ions.

6. The formula of potassium sulfide is K2S. In this compound, potassium (K+) forms a 1+ ion, and sulfide (S2-) forms a 2- ion.

1. The three ionic compounds from the given list are:

LiCl (Lithium chloride)

CsBr (Cesium bromide)

NaCl (Sodium chloride)

Dot-and-cross diagrams for the three ionic compounds:

2. LiCl:

Li (Lithium) has 1 valence electron while Cl (Chlorine) has 7 valence electrons. The electron from Li is transferred to Cl, resulting in the formation of Li+ and Cl- ions. The dot-and-cross diagram would show Li with no dots and Cl with 8 dots around it.

CsBr:

Cs (Cesium) has 1 valence electron while Br (Bromine) has 7 valence electrons. Similar to LiCl, the electron from Cs is transferred to Br, resulting in Cs+ and Br- ions. The dot-and-cross diagram would show Cs with no dots and Br with 8 dots around it.

3. NaCl:

Na (Sodium) has 1 valence electron while Cl (Chlorine) has 7 valence electrons. Again, the electron from Na is transferred to Cl, forming Na+ and Cl- ions. The dot-and-cross diagram would show Na with no dots and Cl with 8 dots around it.

4. Group 1 elements, also known as alkali metals, form 1+ ions because they have one valence electron in their outermost energy level. These elements have a strong tendency to lose this valence electron to achieve a stable electron configuration similar to the noble gas configuration.

The formula of the sulfide ion is S2-.

5. The ions in NaCl stay together due to electrostatic attraction between the oppositely charged ions. In NaCl, the sodium (Na+) ion has a positive charge, and the chlorine (Cl-) ion has a negative charge. These opposite charges attract each other, forming an ionic bond.

The strong electrostatic attraction between Na+ and Cl- keeps the ions together in a crystal lattice structure.

6. The formula of potassium sulfide is K2S. In this compound, potassium (K+) forms a 1+ ion, and sulfide (S2-) forms a 2- ion. To balance the charges, two potassium ions are required for every sulfide ion.

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Answer:

C₄H₁₂ + 7O₂ --> 4CO₂ + 6H₂O

Explanation:

Organic molecules react with O2 to create water and CO2 in combustion processes. C4H12 is an organic molecule that combines with O2 to create water and CO2 as shown in the reactions.

As a result, this is the sole reaction that obeys the general combustion equation.

A pound of lithium and a pound of lead both weigh the same, but the density of these elements is different, meaning that they take up different amounts of space.

A pound of lithium (Li) and a pound of lead (Pb) would both weigh the same since they are both measured in pounds. However, the density of these elements is different, meaning that a pound of lithium would take up more space than a pound of lead.
Lithium is a lighter element than lead, with a density of 0.534 g/cm3 compared to lead's density of 11.3 g/cm3. This means that a pound of lithium would take up more space than a pound of lead, but they would still weigh the same.
It's important to note that the weight and density of these elements can have practical implications. For example, lead is often used in weights and bullets because of its high density and weight, whereas lithium is used in batteries because of its light weight and ability to store energy efficiently.

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Answer:

Temperature, mass, and the type of material are factors that affect the thermal energy of an object.

Material with the higher specific heat will have more thermal energy than material with lower specific heat if they both have the same mass and temperature.

The thermal energy within the thing increases if the temperature remains constant but the object's mass rises.

If two materials have the same mass and temperature, the material with the greater specific heat will have more thermal energy than the material with the lower specific heat.

How does thermal energy transfer depend on the kind of material?

The speed at which thermal energy moves from one end of a substance to another determines thermal conductivity. Insulators transport thermal energy slowly while conductors transfer thermal energy quickly.

The thermal energy within the thing increases if the temperature remains constant but the object's mass rises.

Conduction, convection, or radiation are all ways that thermal energy can be moved from one location to another.

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Answer:

M = 0.0678 M

Explanation:

Hello there!

In this case, since the molarity of a solution is obtained by dividing the moles by the volume, it is firstly necessary to compute the moles of magnesium chloride in 0.968 g, via its molar mass, as shown below:

\(n=\frac{0.968g}{95.21g/mol}=0.0102mol\)

Next, since 150.0 mL in liters is 0.1500 L, according to the appropriate units, the resulting molarity is:

\(M=\frac{0.0102mol}{0.1500L}\\\\M=0.0678M\)

Best regards!

Answer:

There are primarily two forms of bonding that an atom can participate in: Covalent and Ionic. Covalent bonding involves the sharing of electrons between two or more atoms. Ionic bonds form when two or more ions come together and are held together by charge differences.

Explanation:

Explanation:

atomic number shows proton

The measurements which are listed in the proper mathematical relationship include:

This is used in mathematical expressions and has a constant value which doesn't change in expression.

Options A,B and C have the appropriate constants as pressure is usually multiplied by volume.

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The rate law for a reaction can be derived from the stoichiometry of the rate-determining step.

The rate law is an equation that tells how the rate of a reaction depends on the concentration of each species present. A rate equation is a chemical expression that relates the rate of reaction to the concentration of reactants. The stoichiometry of the rate-determining step, and therefore the reaction's rate law, is determined by experimental data.

Here are some factors to consider in determining the rate law experimentally:i. Each reactant's initial concentration is changed.ii. The reaction's rate is determined.iii. The effect of each reactant's concentration change on the reaction's rate is determined.iv. This information is utilized to determine the reaction's rate law.

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The rate law for a reaction can be derived from the stoichiometry of the rate-determining step.

The correct answer is stoichiometry of the rate-determining step. The rate law for a reaction describes the relationship between the rate of the reaction and the concentrations of the reactants. It can be determined experimentally by measuring the rate of the reaction at different reactant concentrations. The stoichiometry of the rate-determining step, which is the slowest step in the reaction mechanism, determines the rate law.

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Answer:no idea

Explanation:

I js needed points

Answer:

boiling point is an intensive property because it stays the same no matter the amount of an element or molecule

Explanation:

Answer:

MARK AS BRAINLIST

Explanation:

density = mass/volume

mass=25.3

density =10.5

10.5=25.3/v

v=25.3/10.5

=2.40

The simple activities like walking, jumping, throwing and falling usually involves kinetic energy. Here the energy of ball when a baseball player hits a ball is kinetic energy. The correct option is B.

The kinetic energy of an object is defined as the measure of the work that an object does by virtue of its motion. When work is done on an object, energy is transferred and the object moves with a constant speed. This energy transferred is kinetic energy.

It is possible to transfer kinetic energy between objects and can be transformed into other form of energy. The SI unit of kinetic energy is Joule and it is proportional to the square of velocity and mass of the object.

Here the moving ball has kinetic energy due to its stae of motion.

Thus the correct option is B.

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Answer:

all

of them

Explanation:

The balanced chemical equation is as follows:

4KClO₃ ₍s₎ ⇒ 3KClO₄ ₍s₎ + 3KCl

The term balanced chemical equation is defined an equation where the number of atoms of each type in the reaction is the equal on both reactants and product sides.

The chemical equation must be balanced in order to obey the law of conservation of mass. When the number of different atoms of elements in the reactants side equals the number of atoms in the products side, the chemical equation is balanced.

Thus, The balanced chemical equation is as follows:

4KClO₃ ₍s₎ ⇒ 3KClO₄ ₍s₎ + 3KCl

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Answer:

ngl ts ngl ts ts ngl...imma keep it a buck.96 ion got the answers kanye do.

Explanation:

Thomas Paine once said it is only error and not truth that shrinks from inquiry. He meant that the more you inquire about something, less error and mistakes come from it, and more truth will.

It means that you can not make a problem worse by inquiring about it but you can only lessen the error within it. Thomas Paine was likely referring to the idea that truth has nothing to fear from examination or investigation, whereas error does. In other words, if a belief or idea is true, it should be able to withstand scrutiny and examination. On the other hand, if a belief is based on error, it will crumble when subject to inquiry.

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Answer: 0.00135

Explanation:

The Avogadro's number is the number of particles (atoms, molecules, or ions) in one mole of a substance and is equal to 6.02 x 10^23. We can use this value to convert the number of molecules of CH4 into moles.

Number of molecules of CH4 = 8.11 x 10^20

Number of moles of CH4 = (8.11 x 10^20) / (6.02 x 10^23)

Number of moles of CH4 = 0.00135 moles of CH4 (rounded to five significant figures)

Therefore, there are approximately 0.00135 moles of CH4 in 8.11 x 10^20 molecules of CH4.

Answer:

Transition metals can have multiple oxidation states because of their electrons. The transition metals have several electrons with similar energies, so one or all of them can be removed, depending the circumstances. When they attach to other atoms, some of their electrons change energy levels.

Explanation:

The total binding energy for lithium is 39.25 Mev

The binding energy per nucleon for lithium is 5.61 Mev / nucleon

    Binding energy is the total energy required for the breakdown of a nucleus to its component nucleons

    Total binding energy is the amount of energy released when the atom is formed from its constituent electron, protons and neutrons.

The given mass are lithium is 7.016004 u  and hydrogen is 1.007825

There are 3 hydrogen and 4 neutrons

To calculate the Total binding energy

3 ( 1.0782) +  4 ( 1.008665 ) = 7.058135 u

Mass of neutron is 1.008665 u

1 atomic mass unit is 931.5 Mev

TBe = ( 7.058135 - 7.016004 ) × 931.5

       = 39.25 Mev

Total binding energy is 39.25 Mev

BE= 39.25 / 7

    = 5.61 Mev / neucleon

Hence, The total binding energy is 39.25 Mev.

             The binding energy is 5.61 Mev / neucleon.

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Answer:

A. physical change

b. physical change

c. chemical change

d. chemical change

Answer:

The new volume of water in the pipette is 8.53 mL

Explanation:

The given information are;

The initial volume of water in the transfer pipette = 15.23 mL

The amount of water transferred from the pipette = 6.7 mL

The new volume of water in the transfer pipette is given as follows;

New volume of water in the pipette =  Initial volume of water in the pipette - Volume of water transferred out

Therefore, we have;

New volume of water in the pipette = 15.23 mL - 6.7 mL = 8.53 mL

The new volume of water in the pipette = 8.53 mL

Answer:

8.5

Explanation:

15.23 - 6.7 = 8.53

The correct amount of sig figs would make the answer 8.5