What hypothesis did Redi’s experiment test?

theory of evolution

spontaneous generation

survival of the fittest

cell theory

​

Answer:

No it does not, plateaus are very elevated

The amount of heat lost when solid Al cools from 660.0 oC to 25.0 oC is approximately 2,389,101.17 J.

To calculate the heat lost, you can use the heat transfer equation: Q = mcΔT, where Q is the heat lost, m is the mass of the object, c is the specific heat capacity of the substance, and ΔT is the change in temperature. In this case, the mass of aluminum (Al) is given as 4110 g and the specific heat of Al is given as 0.902 J/g x oC.

First, calculate the change in temperature: ΔT = T_final - T_initial = 25.0 oC - 660.0 oC = -635.0 oC.

Next, plug the values into the formula: Q = (4110 g)(0.902 J/g x oC)(-635.0 oC) = -2,389,101.17 J.

Therefore, approximately 2,389,101.17 J of heat is lost when solid Al cools from 660.0 oC to 25.0 oC.

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Answer:

The concentration of H₃PO₄ will increase.

Explanation:

H₃PO₄(aq) + H₂O(l) ⇄ H₂PO₄⁻(aq) + H₃O⁺(aq)

According to Le Châtelier's Principle, when we apply a stress to a system at equilibrium, the system will respond in a way that tends to relieve the stress.

If we add more H₂PO₄⁻, the position of equilibrium will move to the left to get rid of the added H₂PO₄⁻.

The concentration of H₃PO₄ will increase.

Answer:

-1,839.6

Explanation:

The enthalpy of the reaction between Manganese dioxide and aluminum to produce aluminum oxide and manganese is -1,839.6 kJ, calculated using the formula for ΔH reaction incorporating the enthalpies of formation of the reactants and products.

The enthalpy of the reaction for Manganese dioxide and aluminum to produce aluminum oxide and manganese can be calculated using the formula ΔHrxn = Σ ΔHf products - Σ ΔHf reactants. Here, the ΔHf for MnO2 is -520.0 kJ and for Al2O3 is -1699.8 kJ/mol. The balanced reaction involves 3 moles of MnO2 and 2 moles of Al2O3, so applying this to our equation: ΔHrxn = [2(-1699.8 kJ) + 3(0 kJ)] - [3(-520.0 kJ) + 4(0 kJ)], because the formation of a pure element in its standard state, like solid Mn, is zero. Hence, the ΔHrxn calculates to be -1,839.6 kJ.

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Answer: 2

Explanation:

The coefficient that should appear in front of LiNO₃ in the balanced equation is 2, to ensure that the number of nitrate ions is conserved between the reactants and the products.

The unbalanced chemical reaction provided is Pb(NO₃)₂ (aq) + Li₂SO₄ (aq) →PbSO₄ (s) +  LiNO₃ (aq).. To balance this equation, we must ensure that the number of each type of atom or polyatomic ion on the reactant side equals the number on the product side.

Let's start by looking at the lead (Pb) atoms. There is one Pb atom on the reactant side and also one on the product side, so Pb is balanced. Next, we notice that there are two nitrate (NO₃) ions on the reactant side within the Pb(NO₃)₂ compound. On the product side, each LiNO₃ contains one nitrate ion, so we need two LiNO₃ molecules to balance the nitrate ions. So, the coefficient in front of LiNO₃ should be 2.

Therefore, the balanced equation would be Pb(NO₃)₂ (aq) + Li₂SO₄ (aq) →PbSO₄ (s) + 2 LiNO₃ (aq).

Answer:

C

Explanation:

Molarity=number of moles/volume

Hence:

Moles required=Molarity×volume

=4mol/L×12L=48moles

Hint:As L(litre will cancel out))

Answer is C

The required moles of solute will be "48 mol".

An aqueous solution containing one mole of something like a chemical dissolved throughout one liter of water or liquid is considered a Molar solution.

According to the question,

Molarity = 4 M

Volume = 12 L

We know the formula,

→ Molarity = [tex]\frac{Number \ of \ moles}{Volume}[/tex]

or,

→ Moles required = Molarity × Volume

By substituting the values, we het

                             = 4 × 12

                             = 48 moles

Thus the correct answer be "Option C" i.e., 48 mol.

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Answer:

[tex]Al^{3+} + 3OH^{-} ---> Al(OH)_{3}[/tex]

Explanation:

AlCl3 + 3NaOH ---> Al(OH)3 + 3NaCl

[tex]Al^{3+} +3Cl^{-} +3Na^{+}+3OH^{-}--->AL(OH)_{3}+3Na^{+}+3OH^{-}\\\\Al^{3+} + 3OH^{-} ---> Al(OH)_{3}[/tex]

The balanced NET ionic equation for the reaction when AlCl₃ and NaOH are mixed in an aqueous solution is:

Al³⁺(aq) + 3OH⁻(aq) → Al(OH)₃(s)

The reaction between AlCl₃ and NaOH is an exchange reaction:

AlCl₃(aq) + 3NaOH(aq) → Al(OH)₃(s) + 3NaCl(aq)   (1)

In this reaction, the ions Cl⁻ and OH⁻ are exchanged between the ions Al⁺³ and Na⁺.  

To write the NET ionic equation, we need to write the total ionic equation:

Al³⁺(aq) + 3Cl⁻(aq) + 3Na⁺(aq) + 3OH⁻(aq) → Al(OH)₃(s) + 3Na⁺(aq) + 3Cl⁻(aq)   (2)

Since the Al(OH)₃ precipitates, we cannot write it as an ion because it does not dissociate in the aqueous solution.  

The net ionic equation of reaction (2) is the following:

Al³⁺(aq) + 3OH⁻(aq) → Al(OH)₃(s)   (3)

All repeated ions in reactants and products do not participate in the net ionic equation. That is why we canceled the Na⁺ and Cl⁻ ions in the net ionic equation (eq 3).

Therefore, the balanced net ionic equation is:

Al³⁺(aq) + 3OH⁻(aq) → Al(OH)₃(s)

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Answer: (C) NH3(g)-- NH3(aq)

Explanation:

The system at equilibrium will shift to the right when the pressure is increased is NH₃(g) = NH₃(aq) and the correct option is option C.

Chemical equilibrium refers to the state of a system in which the concentration of the reactant and the concentration of the products do not change with time, and the system does not display any further change in properties.

It is the state of a reversible reaction where the rate of the forward reaction equals the rate of the reverse reaction. While a reaction is in equilibrium the concentration of the reactants and products are constant.

Equilibrium shifts in the direction of lesser number of moles when the temperature is increased.

Therefore, the system at equilibrium will shift to the right when the pressure is increased is NH₃(g) = NH₃(aq) and the correct option is option C.

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Answer:

S = 1.6 E-4 M

Explanation:

          S               S              S

∴ Ksp = 2.7 E-8 = [Zn2+]*[CO42-]

⇒ Ksp = (S)*(S) = S² = 2.7 E-8

⇒ S² = 2.7 E-8

⇒ S = √2.7 E-8

⇒ S = 1.6432 E-4 M ≅ 1.6 E-4 M

Answer:

Strong electrolyte

Strong electrolyte

Weak electrolyte

Non electrolyte

Considering the equations, the nature of the electrolyte in each case is as follows;

1) Strong electrolyte

2) Strong electrolyte

3) Weak electrolyte

4) Non electrolyte

An electrolyte is a solution that is able to conduct electricity because of the presence of ions in the solution.

We shall now identify whether or not each solution is a strong electrolyte/ weak electrolyte or non electrolyte;

1) Strong electrolyte

2) Strong electrolyte

3) Weak electrolyte

4) Non electrolyte

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Answer:

7700000000

Explanation:

so 7.7 x 10 to the power of 9 is in standard form

to put it into a number you just need to times it by 1000000000

however your answer will only have 8 zeros because of the decimal point

Answer:

Table Salt (NaCl) is a chemical compound formed from Sodium and Chlorine. A Chemical Element is any substance containing only one atomic number and can be used together to form Compounds. ... Salt is considered a chemical compound because it is a stable structure formed of two chemical elements.

Explanation:

Answer:

C

Explanation:

Temperature is directly related to kinetic energy (KE). As we raise temperature, we are raising KE, as well. Particles with more KE move more quickly and with more force.

This means that these particles are more likely to collide with each other and react to allow the chemical reaction to follow through. In turn, if the chemical reaction is more likely to go to completion, the reaction rate increases, eliminating A and B.

The concentration of the solute is not affected by the temperature; in other words, temperature will not increase or decrease the amount of solute in the solution, so eliminate D.

Thus the answer is C.

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Final answer:

Raising the temperature of a chemical reaction generally increases the rate of reaction due to faster molecular movement, more collisions, and higher chances of overcoming the activation energy barrier. However, the solubility of gases in a solvent typically decreases with increased temperature.

Explanation:

Changing the temperature can significantly influence the rate of a chemical reaction. When you raise the temperature of a chemical reaction, you provide more kinetic energy to the reactants. This increased energy results in the molecules moving faster, leading to a higher frequency of collisions. More importantly, these collisions are more forceful, making it more likely for the reactants to overcome the activation energy barrier and form products. As such, the reaction rate increases with an increase in temperature.

It is important to note, however, that the effect of temperature on solubility can vary depending on the nature of the solute. For example, the solubility of gases such as HCl, NH₃, and SO₂ in a solvent actually decreases with an increase in temperature. This is because a higher temperature gives the gaseous solute molecules more kinetic energy, increasing their tendency to escape the solvent and return to the gas phase.

In summary, among the given options, C) accurately describes the effect of temperature on chemical reactions: Raising the temperature of the reaction increases the reaction rate by increasing the energy and frequency of collisions.

Answer:

K+ and Br-

Explanation:

Answer:490

Explanation: 5.22x10-3= 49.2 49.2x10-2=490

Answer:

c

Explanation:

Answer:

Does it form solution?

If yes, then B.) deliquescent

If no, then C.) hygroscopic

Explanation:

When a substance is exposed to air, it either gives off or absorbs water (moisture) from the air. These phenomenons are explained in Efflorescence, Hygroscopy, and Deliquescence

Hygroscopic and deliquescent materials are both able to absorb moisture from the air. But while hygroscopic materials (e.g NaCl, silica gel) absorb moisture and become damp and sticky, deliquescent materials (e.g. CaCl2 and solid NaOH) dissolves in water absorbed from the air and liquefy.

Answer:

limiting reactant

Explanation:

The term that will be used to describe zinc in this case is limiting reactant.

A limiting reactant is a reactant that determines the amount of product formed in a chemical reaction. They are often stoichiometrically smaller of all the reactants in a reaction and once they are used up during, the reaction stops.

In this case, the zinc metal in the reaction is completely consumed, making the hydrochloric acid to be in excess. The zinc thus determines the amount of the products formed,

Answer:

D

Explanation:

If you add two or more thermochemical equations to give a final equation, then you also add the heats of reaction to give the final heat of reaction

Answer:

KE = 110 J

Explanation:

I think this is right. I tried. sorry if its wrong!!!!

Explanation:

K.E=M×V^2

=55×4

=220J

This is the kinetic energy of the girl.

Answer:

It's C (combined wave)

Explanation:

The diagram below shows the movement of particles. This piece of evidence is best supported by :

the collision theory

Explanation:

Answer: a

Explanation:

edge

Answer:

1:  tap water to ice cube

2:  electric burner to pot

Next section

1:  bonfire to air

2:  hand to ice

Next section

1:  Molecules in the hot water bottle are moving faster than molecules in the skin

2:  Molecules in the skin are moving faster than molecules in the glass

Next section

Collisions result in transfer of energy from molecules of higher kinetic energy to molecules of lower kinetic energy

Warm water molecules slow down while cold water molecules speed up

Explanation:

on edg Good Luck!!

Answer:

the generator

Explanation:

Answer:

Solute

       Solvent

   Solute

   Solvent

  Solvent

Explanation:

Answer:

1) Solute

2) Solvent

3)Solute

4)Solvent

5)Solvent

Explanation:

Answer:

Covalent is the type of bond.

Answer:

Covalent

Explanation:

Took the test and got it right :)

Answer:

hydrogen,Acids

Explanation:

Hope this helps you

Answer:

ACDE

Explanation:

just answered this question on edg

Answer: A C D and E

Explanation: I just did it.