Answer: Solubility
Explanation:
The property by which substances dissolve in water is called solubility. Soluble substances (such as salt) dissolve in water.
Answer: Electical charge
Explanation:At the molecular level, salt dissolves in water due to electrical charges and due to the fact that both water and salt compounds are polar, with positive and negative charges on opposite sides in the molecule.
What's the volume of 0.2 mol of hydrogen at STP.
Answer
4.48 L
Explanation
At STP, the volume of 1 mol of any gas occupies 22.4 L
Therefore, the volume 0.2 mol of hydrogen at STP = (0.2 mol/1 mol) x 22.4 L = 4.48 L
Hi. Can I get help with question number 49, please?
The definition of definite shape and volume is a definition of the solid state of matter. The molecules of the compound are so tightly bound that they maintain their shape regardless of the container in which they are contained.
Within the options we see a liquid (l), two gases(g), and a solid described with the suffix s, this is the I2(s), therefore this will be the correct option.
Answer: a. I2(s)
What type of model that is a smaller or larger copy of an
object and one that shows key features or interactions?
A. mathematical model
B. physical model
C. conceptual model
D. statistical model
A physical model is a replica that has been built that is intended to represent the original object. A physical model may be the same size as the real object it represents, smaller, or larger. A scale model is one that is either bigger or smaller than the real thing.
A physical model is a streamlined tangible depiction of an object or phenomenon that has to be studied, typically on a smaller scale.
The model can replicate the relevant physical factors (temperature, waves, speed, etc.) and forecast the unique limits of the circumstance. Before starting the last stages of a project, these constraints can be considered, tested, and solutions implemented.
Urban planning, naval construction, aeronautics, and other fields involving geometry, thermodynamics, and fluid mechanics frequently use physical models.
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. A Nucleopore membrane is characterised with permporometry using cyclohexane as condensable vapour. At a relative pressure of 0.78 a high oxygen flux can be observed which does not increase further upon decreasing the relative vapour pressure. The t-layer of cyclohexane in the pore is 0.5 nm. The experiment is performed at 34°C. The saturation pressure of cyclohexane at 34°C is 192.5 mbar. a) Calculate the vapour pressure of cyclohexane at a relative pressure of 0.78. b) What can you say about the pore size distribution in this membrane? c) What is/are the pore radius/radii in this membrane
A Nucleopore membrane is characterised with permporometry using cyclohexane as condensable vapour. At a relative pressure of 0.78 a high oxygen flux can be observed which does not increase further upon decreasing the relative vapour pressure. The t-layer of cyclohexane in the pore is 0.5 nm. The experiment is performed at 34°C. The saturation pressure of cyclohexane at 34°C is 192.5 mbar
Vapour pressure is a measure of the tendency of a material to change into the gaseous or vapour state and also increases the temprature
1. The vapour pressure of cyclohexane at a relative pressure of 0.78 is 0.104 atm
2. Pore size distribution in this membrane is 0.5 nm
3. The pore radius/radii in this membrane is 9.0
Here given data is
relative pressure = 0.78
Pore = 0.5 nm.
Temprature = 34°C
saturation pressure = 192.5 mbar
We have to find vapour pressure = ?
Vapor pressure = ln(P₁/P₂) = (ΔHvapor/R) - (1/T₁)
Vapor pressure = ln(1 /192.5 mbar) = ( 0.78 /8.314) - (1/ 34°C)
Vapor pressure = -5.26 = 0.093-0.06
Vapor pressure = 0.104 atm
Where pore radius/radii in this membrane is calculated by formula
(P/P₀) = -2rT
(0.78/ 0.104 ) = -2×34°C
7.5 = -68
= 9.0
Therefore radius pore in this membrane is 9.0
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Rachel burns a 53 gram cracker under a soda can filled with 77.8 grams of water. She took the temperature of the water before she began -- it was 9.3 degrees Celsius. After the cracker was done burning, the temperature of the water was 73.8 degrees Celsius. How many calories of heat were released by the cracker? Round your answer to one digit after the decimal point.
In this question, we have a situation in which we have to use the Calorimetry formula, which is how much heat was released or absorbed (in Joules), after we had a change in temperature of a compound. The formula for this Calorimetry question is:
Q = mcΔT
Where:
Q = is energy as Heat
m = mass in grams, 77.8 grams
c = is the specific heat capacity, 4.184 J/g°C this is for water
ΔT = the change in temperature, calculated as Final Temperature - Initial T
73.8 - 9.3 = 64.5°C
It is important to know that the heat released by the cracker is the same heat absorbed by water but with an opposite mathematical sign, so we have to find out the heat absorbed by water:
Q = 77.8 * 4.184 * 64.5
Q = 20995.7 J is the heat absorbed by water
Therefore the heat released by the cracker is - 20,995.7 J
0/1 pt 1021 0If 5.47 mol of krypton gas occupies 186.5 L, what volume would 14.1 mol of krypton occupy at the sametemperature and pressure?Use the correct number of significant figures in your answer.Question 5Submit Question Jump to Answer
Answer:
The new volume is 480.75L.
Explanation:
The given information from the exercise is:
- Initial amount of moles (n1): 5.47 moles
- Initial volume (V1): 186.5L
- Final amount of moles (n2): 14.1 moles
1st) We have to replace the values of V1 and n1 in the Idea Gases formula:
[tex]\begin{gathered} P*V_1=n_1*R*T \\ P*186.5L=5.47moles*0.082\frac{atm*L}{mol*K}*T \\ \frac{186.5L}{5.47moles*0.082\frac{atm*L}{mol*K}}=\frac{T}{P} \\ 415.8\frac{K}{atm}=\frac{T}{P} \end{gathered}[/tex]Now we have a value for the relation T/P that remains constant.
2nd) Finally, we have to replace the value of the relation T/P and the amoun of moles n2:
[tex]\begin{gathered} P*V=n_2*R*T \\ P*V=14.1moles*0.082\frac{atm*L}{mol*K}*T \\ V=14.1moles*0.082\frac{atm*L}{mol*K}*\frac{T}{P} \\ V=14.1moles*0.082\frac{atmL}{molK}*415.8\frac{K}{atm} \\ V=480.75L \end{gathered}[/tex]So, the new volume is 480.75L (rounded to 481L).
what is the mass of aluminum used if 0.1 moles of aluminum chloride is produced by reacting aluminium with an acid
The mass of aluminum used if 0.1 moles of aluminum chloride is produced by reacting aluminum with an acid is 2.69 g.
given that :
number of moles of aluminum chloride = 0.1 moles
The balanced reaction is given as :
2Al + 6HCl -----> 2AlCl₃ + H₂
it is clear from the reaction that:
2 moles of Al produce 2 moles of AlCl₃
the mole ratio is 2 : 2
mean moles of Al = 0.1
molar mass of Al = 26.9 g/ mol
mass of Al = number of moles × molar mass
= 0.1 × 26.9
= 2.69 g
Thus, The mass of aluminum used if 0.1 moles of aluminum chloride is produced by reacting aluminum with an acid is 2.69 g.
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How many grams of olive oil will fit into a container that holds 5 L?
ANSWER
The mass of olive oil to 1 significant figure is 4000g
STEP-BY-STEP EXPLANATION
Given information
The volume of the container = 5.0L
The specific gravity of olive oil = 0.703 g/mL
Let x represents the mass of the olive oil
To calculate the mass of olive oil, we will be using the formula below
[tex]\text{Density = }\frac{\text{ mass}}{\text{ volume}}[/tex]Firstly, we need to find the density of olive oil using the below formula
[tex]\begin{gathered} \text{Specific gravity = }\frac{density\text{ of olive oil}}{\text{density of water}} \\ \text{Density of water = 0.999 g/ml} \\ 0.703\text{ = }\frac{\text{ density of olive oil}}{\text{ 0}.999} \\ \text{cross multiply} \\ \text{Density of olive oil = 0.703 }\cdot\text{ 0.999} \\ \text{ density of olive oil = 0.702297 g/ml} \end{gathered}[/tex]Therefore, the density of olive oil is 0.702297 g/ml
To have unit consistency, we need to convert the volume from Liters to milliliters
Recall that, 1 Liter is equivalent to 1000mL
Let x represents the volume to be converted to mL
[tex]\begin{gathered} 1\text{ }\rightarrow\text{ 1000} \\ 5\text{ }\rightarrow\text{ x} \\ \text{cross multiply} \\ 1\cdot\text{ x = 1000 }\cdot\text{ 5} \\ x\text{ = 500mL} \end{gathered}[/tex]Since the volume is 5000mL, we can now find our mass
[tex]\begin{gathered} \text{Density = }\frac{mass}{\text{volume}} \\ 0.702297\text{ = }\frac{mass}{5000} \\ \text{cross multiply} \\ \text{mass = 0.702297 x 5000} \\ \text{mass = 3}511.485\text{ gram} \\ The\text{ mass of olive oil to 1 significant figure is 4000 grams} \end{gathered}[/tex]Can you please help me fast
Answer:
C
Explanation:
the answe is naturally occurring
(give me brainliest )
___ H2SO4 + __KOH → __K2SO4 +__H2 Obalance the equation
Explanation:
We have to balance this equation:
___ H₂SO₄ + __ KOH ----> __ K₂SO₄ + __ H₂O
The first step is to determine the number of atoms of each element that we have on both sides of the equation.
___ H₂SO₄ + __ KOH ----> __ K₂SO₄ + __ H₂O
K: 1 K: 2
S: 1 S: 1
H: 3 H: 2
O: 5 O: 5
We have 1 atom of K on the left side of the equation and there are 2 atoms of K on the rigth side of the equation. To balance the number of K atoms we can change the coefficient for KOH and write a 2 there.
___ H₂SO₄ + 2 KOH ----> __ K₂SO₄ + __ H₂O
K: 2 K: 2
S: 1 S: 1
H: 4 H: 2
O: 6 O: 5
We balanced the K. The S atoms are already balanced. Let's focus on H. We have 4 atoms of H on the left and 2 atoms of H on the right side of the equation. We can change the coefficient for H₂O and write a 2 there to get 4 atoms of H on the right side.
___ H₂SO₄ + 2 KOH ----> __ K₂SO₄ + 2 H₂O
K: 2 K: 2
S: 1 S: 1
H: 4 H: 4
O: 6 O: 6
We balanced the H and we also changed the number of O atoms on the right side and also balanced them. The balanced equation is:
H₂SO₄ + 2 KOH ----> K₂SO₄ + 2 H₂O
Answer: H₂SO₄ + 2 KOH ----> K₂SO₄ + 2 H₂O
1. What is the molarity of a solution of HNO3 that contains 25.2 g of HNO3 in 1.0 L of solution?
Explanation:
First, let's discover the quantity in moles of 25.2 g of HNO3. For this, we use the following formula: n = m/MM
MM of HNO3 = 63 g/mol
m = 25.2
n = 25.2/63
n = 0.4 moles
Now using the following formula: M = n/V
We can find the molarity of the solution:
n = 0.4 moles
V = 1L
M = 0.4/1
M = 0.4 mol/L
Answer: 0.4 mol/L
“Give the chemical formula(s) for carbonic acid, bicarbonate, carbonate, & calcium carbonate. Write the chemical reaction that produces each of these molecules”I’m a bit confused by this question can someone help me out?
Answer
The chemical formula(s) are:
Carbonic acid is H₂CO₃
Bicarbonate is HCO₃⁻
Carbonate is CO₃²⁻ and
Calcium carbonate is CaCO₃
The chemical reaction that produces each of these molecules are:
CO₂ + H₂O ⇄ H₂CO₃ ⇄ HCO₃⁻ + H⁺ ⇄ CO₃²⁻ + H⁺
Ca²⁺ + CO₃²⁻ → CaCO₃
Explanation
Chemical name Chemical formula
Carbonic acid H₂CO₃
Bicarbonate HCO₃⁻
Carbonate CO₃²⁻
Calcium carbonate CaCO₃
Carbonic acid, (H₂CO₃) is a compound formed in small amounts when its anhydride, carbon dioxide (CO₂), dissolves in water.
Bicarbonate (HCO₃⁻) forms when a positively charged ion attaches to the negatively charged oxygen atoms of the ion, forming an ionic compound.
H₂CO₃, HCO₃⁻, and CO₃²⁻ can be formed as shown in the chemical equation below.
CO₂ + H₂O ⇄ H₂CO₃ ⇄ HCO₃⁻ + H⁺ ⇄ CO₃²⁻ + H⁺
In the presence of a calcium ion, (Ca²⁺) from hard water, carbonate, (CO₃²⁻) will combine with it to form calcium carbonate.
Ca²⁺ + CO₃²⁻ → CaCO₃
For the reaction 2NOBr→2NO2+Br2, the rate law is rate =k[NOBr]^2. If the rate of a reaction is 6.5×10−6molL−1s−1, when the concentration of NOBr is 2×10−3molL−1.What would be the rate constant of the reaction?
Answer:
k = 1.625 mol⁻¹ L s⁻¹
Explanation:
What is given?
rate = 6.5 x 10⁻⁶ mol L⁻¹s⁻¹,
[NOBr] = 2 x 10⁻³ mol L⁻¹.
Step-by-step solution:
We want to find the rate constant, k of the reaction based on the rate law:
[tex]rate=k\cdot\lbrack NOBr]^2,[/tex]so we just have to solve for 'k' and replace the given values:
[tex]\begin{gathered} k=\frac{rate}{\lbrack NOBr]^2}, \\ \\ k=\frac{6.5\cdot10^{-6\text{ }}mol\text{ L}^{-1}s^{-1}}{(2\cdot10^{-3}\text{ mol L}^{-1})^2}, \\ \\ k=1.625\text{ mol}^{-1}L^s^{-1} \end{gathered}[/tex]The answer would be k = 1.625 mol⁻¹ L s⁻¹
Whatisthenumberof moles of glucose(C₆H₁₂O₆)in 0.500L of a 0.40 Msolution?
Answer:
[tex]0.2\text{ mole}[/tex]Explanation:
Here, we want to get the number of moles of glucose in 0.5L of 0.4 M solution
Firstly, we need to recall that concentration or molarity is of the unit mol/dm^3
Mathematically, 1L is 1 dm^3 , thus, we have it that 0.4M is the same as 0.4 mol/dm^3
Now, to get the number of moles from molarity, we have to multiply the molarity by the volume
We have that as:
[tex]\begin{gathered} \text{Number of moles = molarity }\times\text{ volume} \\ \text{Number of moles = 0.4 }\times0.5\text{ = 0.2 mole} \end{gathered}[/tex]CH3OH-water interactions: What happens when the CH3OH molecules are surrounded by water molecules? Briefly describe their interaction.
When the CH₃OH molecules are surrounded by water molecules, there are solvent-solute interactions where the solvent water molecules interact with the OH group of the CH₃OH molecules resulting in the dissolution of the molecules in water.
What is solvation?Solvation refers to the interaction between solvent and solute molecules whereby the solvent molecules surround and interact with the polar groups of the solute molecules resulting in the dissolution of the solute in the solvent.
Solvent-solute interactions are common when polar or ionic substances are dissolved in water. For example, when, methanol, CH₃OH is dissolved in water.
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REACTION; C5H12 + 8O2 5CO2 + 6H2OWhen 15.5 grams of C5H12 are consumed in this reaction what volume of CO2 can be produced in liters?
Step 1 - Finding the stoichiometry of the reaction
The given reaction is:
[tex]C_5H_{12}+8O_2\to5CO_2+6H_2O[/tex]To find the stoichiometry of the reaction in moles, we just have to "read" the bigger numbers that come before the formulas of the substances:
1 mole of C5H12 reacts with 8 moles of O2 thus producing 5 moles of CO2 and 6 moles of H2O
Since the exercise is specifically asking us about the relation between C5H12 and CO2, we can simplify this statement to:
1 mole of C5H12 produces 5 moles of CO2
Step 2 - Converting this relation to a relation in grams
To convert moles to grams, we just need to multiply the number of moles by the molar mass of the substance.
Since the exercise is giving us the mass of C5H12, it would be interesting to convert its number of moles to mass (its molar mass is 72 g/mol):
[tex]C_5H_{12}\to1\times72=72g[/tex]We can now rewrite the statement in step 1 as:
72g of C5H12 produce 5 moles of CO2
Step 3 - Finding how many moles of CO2 will be formed
To find the moles of CO2 that will be formed, we can set the following proportion:
[tex]\begin{gathered} 72g\text{ of C5H12 produce ---- 5 moles of CO2} \\ 15.5g\text{ of C5H12 would produce --x } \\ \\ x=\frac{15.5\times5}{72}=1.07\text{ moles of CO2} \end{gathered}[/tex]Step 4 - Converting moles to volume
The molar volume of a gas in STP conditions (standard pressure and volume) is 22.4 L/mol, which means that each mole of gas occupies 1 L. Since we have formed 1.07 moles of CO2, we have:
[tex]V=1.07\times22.4=23.96L[/tex]The volume of CO2 that would be formed is thus 23.96L.
Determine the volume (mL) required to prepare each of the following. 190 mL of a 0.300 M HNO3 solution from a 3.75 M HNO3 solution.Express your answer with the appropriate units.
To solve this problem we have to use the rule of dilutions:
[tex]V1\cdot C1=V2\cdot C2[/tex]Where V1 is the initial volume, C1 is the initial concentration, V2 is the final volume and C2 is the final concentration.
In this case, we need to find V1. Solve the equation for V1 and then replace C1 for 3.75M, V2 for 190mL and C2 for 0.300M:
[tex]\begin{gathered} V1=\frac{V2\cdot C2}{C1} \\ V1=\frac{190mL\cdot0.300M}{3.75M} \\ V1=15.2mL \end{gathered}[/tex]It means that the volume required is 15.2mL.
The first ionization energy of magnesium is 738 kJ/mol. A good estimate for the second ionization energy of magnesium is:
The second ionization energy is always greater than the first one. So, the answer is between 1450and 6900 kJ/mol.
Each ionization energy means the energy that it takes to separate the outer electron from the atom. In this case, the best estimation of the second ionization energy is 6900 kJ/mol because it would take more than double the first ionization energy.
Therefore, the answer is d.
Name each of the following Acids and Bases:Mg(OH)2
ANSWER
Mg(OH)2 is a base
STEP-BY-STEP EXPLANATION:
Firstly, we need to define the word "acid and base"
An acid is a substance that will produce hydrogen ion as the only positive ion when dissolved in water
WHILE
A base is a substance that can neutralize the acid by reacting with hydrogen ions to produce salt and water. A base also contain hydroxyl ion (OH)
From the above definition, you will see that Mg(OH)2 is a base
Nitrogen gas and oxygen can combine to produce nitric oxide such a reaction absorbs 88KJ of heat from the surroundings, how many grams of nitrogen gas do you predict were consumed in the reaction?N2 + O2 -> 2NO. AH=180kJ
N2 (g) + O2 (g) =======> 2 NO (g) AH = 180kJ
Don't forget to balance the reaction.
This is an endothermic reaction because it needs heat to produce and the sign + of AH
Some reactions absorb enthalpy and others free heat.
We can find the mass of N2 using this enthalpy:
N2 (g) + O2 (g) =======> 2 NO (g) AH = 180kJ
x (grams) AH = 88 kJ
First, we calculate the molecular mass of N2:
Molar mass N2 = 28.01 g / mole so,
1 mol N2 = 28.01 g N2
Now:
28.01 g of N2 ----------------------- absorb 180kJ (stoichiometry)
x (we need this)----------------------- 88 kJ (is real)
[tex]x=\text{ }\frac{88kJ\text{ . 28.01 g N2}}{180kJ\text{ }}=13.69\text{ g of N2}[/tex]Be sure to answer all parts.The equilibrium constant (Kc) for the formation of nitrosyl chloride, an orange-yellow compound, from nitric oxide and molecular chlorine 2NO(g) + Cl2(g) ⇌ 2NOCl(g) is 2 × 105 at a certain temperature. In an experiment, 6.00 × 10−2 mole of NO, 6.70 × 10−3 mole of Cl2, and 4.00 moles of NOCl are mixed in a 1.30−L flask. What is Qc for the experiment? × 10(Enter your answer in scientific notation.) In which direction will the system proceed to reach equilibrium? The reaction will proceed to the left. The reaction will proceed to the right. The reaction is at equilibrium.
STEP-BY-STEP EXPLANATION*
Given information*
[tex]\begin{gathered} \text{The number of moles of NO = 6.00 }\times10^{-2}\text{ moles} \\ \text{The number of moles of Cl2 = 6.7 }\times10^{-3}\text{ moles} \\ \text{The number of moles of NOCl = 4.00 moles} \\ K_c\text{ = 2 }\times10^5 \end{gathered}[/tex]The first step is to write the balanced equation of the chemical reaction*
[tex]2NO_{(g)}+Cl_{(2)(g)}\rightleftarrows2NOCl_{(g)}[/tex]The next step is to write the chemical equilibrium expression for the above reaction*
How do you find the slopeAnd the equation as well
Answer:
Explanation :
Match the type of radiation to a correct description of it.BetaAlphaGamma?Decreases the atomic number of the atom.?Increases the atomic number of the atom.?Does not change the atomic number of the
ANSWER
Alpha particle...........> decreases the atomic number of an atom
Beta particles .............> increases the atomic number of the atom
Gamma particle ..........> does not change the atomic number of the atom
EXPLANATION
The three types of radioactive particles are;
1. Alpha particle
2. Beta particle
3. Gamma particle
Alpha particles has a positive charge with atomic number 2 and mass number 4
Any atom that gives off alpha particle, will have it atomic number drops by 2 and its mass number drops by 4
Hence, alpha particle decreases the atomic number of an atom
Beta particles; The atomic number of a beta particle changes, it can either be positive or negative
When an atom gives off a beta particle, the mass number number of the atom remains unchanged but the atomic number increases
Hence, beta particles increases the atomic number of the atom
Gamma particle is a neutral particle and it does not have any charge on it
When an atom gives off a gamma particle, the mass and atomic numbers of the atom remain unchanged
Hence, gamma particle does not change the atomic number of the atom
21. If you have 350 milliliters (mL) of a 500-milligramper liter (mg/L) solution of alum (aluminum sulfate),how much water would you have to add to bring theconcentration down to 100 mg/L? Assume that youare adding water that does not contain any alum (C2=0).1. 70 mL2. 1,400 mL3. 143 mL4. 1,750 mL
1750mL
Explanations:In order to get the required volume, we will use the dilution formula expressed as:
[tex]C_1V_1=C_2V_2[/tex]where:
C₁ and C₂ are the initial and final concentration respectively
V₁ and V₂ are the initial and final volume respectively
Given the following parameters:
C₁ = 500mg/L
C₂ = 100mg/L
V₁= 350mL
Required
V₂
Substitute the given parameters into the formula to have:
[tex]\begin{gathered} V__2=\frac{C_1V_1}{C_2} \\ V_2=\frac{500\times350}{100} \\ V_2=\frac{175,000}{100} \\ V_2=1750mL \end{gathered}[/tex]Hence the amount of water needed is 1750mL
What is the electron figuration of selenium
The electron configuration of selenium is 1s² 2s² 2p⁶ 3s² 3p⁶ 4s² 3d¹⁰ 4p⁴.
Selenium is an element of atomic number 34. Electronic configuration helps us in understanding the distribution of electrons in their atomic and sub-atomic sub-shells easily. For writing an element in electronic configuration, a standard notation is to be followed for placing the electrons accordingly in the sub-shells.
The element Selenium with atomic number 34 has 34 electrons in it. Therefore, the nearest noble gas found to Selenium is Argon. Argon has a complete shell of electrons with its configuration as 1s² 2s² 2p⁶ 3s² 3p⁶. With reference to the electronic configuration of Argon, the electronic configuration of Selenium could be found easily.
It could be found from the electrons filling according to the energy of shells that Selenium occupies till the 4th shell until the p sub-shell.
Therefore, the electronic configuration of Selenium is 1s² 2s² 2p⁶ 3s² 3p⁶ 4s² 3d¹⁰ 4p⁴.
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Convert 57.0 degrees C todegrees F.[?] °FT in degrees F
In order to convert a temperature in celsius to a temperature in Fahrenheit, we need to use the following conversion formula:
(°C*9/5) + 32
Now we use the 57°C value in the formula:
(57 * 9/5) + 32
(513/5) + 32
102.6 + 32
134.6
The temperature of 57° in Fahrenheit will be 134.6°
How would I convert 246.44 L of gasoline into kilograms? The density of gasoline is 0.800 kg/L
The density is defined like:
Density = mass / volume
We know the volume of gasoline and the density. Using that formula we can find the mass that is our unknown.
mass of gasoline = ?
density of gasoline = 0.800 kg/L
volume of gasoline = 246.44 L
Density = mass/volume
mass = volume * density
mass = 246.44 L * 0.800 kg/L
mass = 197.2 kg
Answer: we have 197.2 kg in 246.44 L of gasoline.
6. How is a magnet turned into a temporary magnet?
A. It has to contain hydrocarbons
B. It has to be pure iron
C. It has to have opposite magnetic poles
D. It has to have an alloy of iron
A magnet turned into a temporary magnet is It has to have opposite magnetic poles. Option C.
Temporary magnets are made of soft metals that become magnetized only when exposed to a permanent magnetic field or electric current. When they come into contact with a magnetic field, they become magnetized. Temporary magnets are made of soft metals that retain their magnetism only when in proximity to a permanent magnetic field or electric current.
They are magnetized in the presence of a magnetic field. Clips, iron nails, and other similar items are examples of temporary magnets. The force that a magnet exerts on a particular substance, including other magnets, is called magnetic force. Forces act over distance and include attraction and repulsion. The north and south poles of two magnets attract each other but the two north poles or the two south poles repel each other.
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What common similarity is possessed by all electrolytes, other than being water soluble?
INFORMATION:
Knowing that all electrolytes are water soluble, we must determine which other common similarity is possessed by all electrolytes
STEP BY STEP EXPLANATION:
To determine it, we need to know that
Simply, an electrolyte is a substance that can conduct an electric current when melted or dissolved in water. If the physical or chemical process that generates the ions is essentially 100% efficient (all of the dissolved compound yields ions), then the substance is known as a strong electrolyte. If only a relatively small fraction of the dissolved substance undergoes the ion-producing process, it is called a weak electrolyte.
That means, all electrolytes can conduct electricity, and they can be identified as strong or weak by measuring the electrical conductance of an aqueous solution containing the substance.
Finally, another common similarity for electrolytes is that they can conduct electricity.
ANSWER:
Another common feature of all electrolytes, apart from being soluble in water, is that they can all conduct electricity, either to a large or small extent.
Calculation: If a compound is 14.40% hydrogen by mass and 85.60% carbon by mass, what is the empirical formula?CH3CHCH2CH4
In order to find an empirical formula of a compound with a given percent composition of the elements that compose this molecule, we need so start by assuming an initial mass of 100 grams (it can be any value, but we usually choose 100 grams because it is easier to work on)
Now, if this compound has 100 grams, we can find the mass of each element and with that information, we can find the number of moles of each one