(4x972)+(76.4x29.3)-(12x7)
solve using significant figures please ASAP

Answer:

Polymer scientists have been trying to mimic this behavior by creating so called smart polymers. ... One of the most important classes of stimuli-responsive polymers used for controlled drug delivery is crosslinked polymer networks, e.g., hydrogels and microgels.

Explanation:

Answer:

a raised weight

water that is behind the dam

a car that is parked at the top of a hill

a you before it released

a ripe fruit before It falls

Answer:

Three main processes control mountain height: lateral support of mountains from tectonic forces, which stops mountains from collapsing under their own weight or pushes them up against gravity; climate-controlled erosion; and isostasy, which keeps mountains afloat on the hot and soft mantle material.

Explanation:

The Answer is 3.501591994

Explanation:

area of circle = πr^2

radius=

39.5 = 22/7*r^2

r^2 = 7*39.5/22

= 12.56

r=3.5

Answer:

[tex]m_{NH_3}^{leftover}=57.88g[/tex]

[tex]Y= 92.0\%[/tex]

Explanation:

Hello there!

In this case, according to the following chemical reaction between iodine monobromide and ammonia:

[tex]3IBr+NH_3\rightarrow NI_3+3HBr[/tex]

It turns out firstly necessary to identify the limiting reactant, by considering the proper molar masses and the 3:1 and 1:1 mole ratios of iodine monobromide to nitrogen triiodide and ammonia to nitrogen triiodide respectively:

[tex]n_{NI_3}^{by\ IBr}=164.8gIBr*\frac{1molIBr}{206.81gIBr}*\frac{1molNI_3}{3molIBr} =0.266molNI_3\\\\n_{NI_3}^{by\ NH_3}=62.4gNH_3*\frac{1molNH_3}{17.03gNH_3}*\frac{1molNI_3}{1molNH_3} =3.66molNI_3[/tex]

Thus, we conclude that the limiting reactant is IBr as is yields the fewest moles of nitrogen triiodide product. Next, we can calculate the reacted grams of ammonia as the excess reactant:

[tex]m_{NH_3}^{reacted}=0.266molNI_3*\frac{1molNH_3}{1molNI_3}*\frac{17.03gNH_3}{1molNH_3}=4.52gNH_3[/tex]

And therefore the leftover of ammonia is:

[tex]m_{NH_3}^{leftover}=62.4g-4.52g=57.88g[/tex]

Next, the percent yield is calculated by firstly calculating the theoretical yield of nitrogen triiodide as follows:

[tex]m_{NI_3}^{theoretical}=0.266molNI_3*\frac{394.72gNI_3}{1molNI_3} =104.8gNI_3[/tex]

And finally the percent yield by dividing the given actual yield of 96.4 g by the previously computed theoretical yield:

[tex]Y=\frac{96.4g}{104.8g}*100\%\\\\Y= 92.0\%[/tex]

Best regards!

Answer:

250 light minutes takes

Explanation:

1 astonomical unit is equal to 1.50x10¹¹m

The light travels at the speed of 3.0x10⁸m/s. That means in 1 second, travels 3.0x10⁸m. To solve this question we must find the distance of neptune to the sun in meters. In this way we can find the seconds (And minutes) that need the light to travel from the sun to neptune:

Distance from Sun to neptune:

30AU * (1.50x10¹¹m / 1AU) = 4.5x10¹²m

Time transcurred:

4.5x10¹²m * (1s / 3.0x10⁸m) = 15000s

15000s * (1min / 60s) =

Answer:

Hydrocarbon and oxygen

Explanation:

"a substance reacts with oxygen gas, it must involve O² as one of the reactants."

Using this, we can confirm Hydrocarbon and oxygen is a valid one.

Answer:

light bends and makes effects in the water

Explanation:

Answer:

The answer is "As [tex]Q=336[/tex], at high-temperature [tex]\Delta G_{rxn}>0[/tex] and When[tex]K>1,[/tex][tex]\Delta G^{\circ}_{rxn}>0[/tex]."

Explanation:

The equation for the reaction is:

[tex]A(g) \leftrightharpoons B(g)[/tex]  

[tex]K=5.8\\\\Q=336[/tex]

At equilibrium,

[tex]\Delta G^{\circ}_{rxn}>0[/tex][tex]=-RT \ln \ K[/tex]

When k=5.8(>1), the value of [tex]\ln k[/tex] would be positive

So, [tex]\Delta G^{\circ}_{rxn}[/tex] is negative (< 0)

So if K > l, [tex]\Delta G^{\circ}_{rxn}<0[/tex]

If the reaction is not in equilibrium so the equation is :

[tex]\Delta G_{rxn}>0[/tex]=[tex]\Delta G^{\circ}_{rxn}[/tex][tex]+RT \ln Q[/tex]

Substituting the expression:

[tex]\Delta G_{rxn}>0[/tex][tex]= (-RT \ln K) + RT \ln Q[/tex]

                 [tex]= RT(\ln Q- \ln K)\\= RT(\ln (336)-\ln (5.8))\\= RT(4.06)[/tex]

It is the positive value for all temperatures.

So, As Q = 336, at the high temperature [tex]\Delta G_{rxn}>0[/tex].

Answer:

3.74 M

Explanation:

We know that molarity is moles divided by liters. The first thing to do here is convert your 1500 mL of solution to L. There's 1,000 mL in 1 L, so you need to divide 1500 by 1000:

1500 ÷ 1000 = 1.50

Now you can plug your values into the equation for molarity:

5.60 mol ÷ 1.50 L = 3.74 M

Answer:

Ver explicacion

Explanation:

La capacidad de un elemento de existir en diferentes formas en el mismo estado físico se conoce como alotropía.

No es solo el carbono el que exhibe alotropía. También se sabe que el azufre y el fósforo exhiben alotropía.

Hay dos alótropos cristalinos de azufre; grafito y diamante. El grafito y el diamante difieren en la disposición de los átomos de carbono y la naturaleza de los enlaces entre los átomos de carbono en ambas sustancias.

Por lo tanto, el grafito y el diamante tienen propiedades físicas y químicas observadas completamente diferentes debido a las diferencias en la disposición de los átomos de carbono en cada sustancia, así como a las diferencias en la naturaleza de los enlaces entre los átomos de carbono en ambas sustancias.

Answer

electrons are very small, so every atom would have to contain a whole lot of electrons.Atoms must also contain some type of positively charged material which balances the negative charge on the electrons.

Explanation:

J.J. Thomson's experiments with cathode ray tubes showed that all atoms contain tiny negatively charged subatomic particles or electrons. Rutherford's gold foil experiment showed that the atom is mostly empty space with a tiny, dense, positively-charged nucleus.

hope this helped

Answer:

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

Explanation:

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

N/A NO DIAGRAM

Answer:

Physical

Explanation:

because the erosion of the canyon did not change any of the chemical attributes of the rock it only changed the appearance. it may have changed the color which is an example of chemical properties but in this case, it is physical. But in other cases, you would refer to this type of weathering as mechanical weathering.

Answer:

it physical

Explanation:

because it moving

To calculate the atoms of an element in a given molecule, we need to multiply stoichiometry by the number that is written on the foot of that element. Therefore, the balanced equation is

2C[tex]_2[/tex]H[tex]_6[/tex](g) + 7O[tex]_2[/tex](g) → 4CO[tex]_2[/tex](g) + 6H[tex]_2[/tex]O(g)

Balanced equation is the one in which the total number of atoms of a species on reactant side is equal to the total number of atoms on product side. The mass of the overall reaction should be conserved. There are so many types of chemical reaction reaction like combination reaction, displacement reaction.

C[tex]_2[/tex]H[tex]_6[/tex](g) + O[tex]_2[/tex](g) → CO[tex]_2[/tex](g) + H[tex]_2[/tex]O(g)

Multiply by 7 on reactant side and by 6 on product side to balance oxygen

C[tex]_2[/tex]H[tex]_6[/tex](g) + 7O[tex]_2[/tex](g) → CO[tex]_2[/tex](g) + 6H[tex]_2[/tex]O(g)

Now balance carbon and hydrogen

2C[tex]_2[/tex]H[tex]_6[/tex](g) + 7O[tex]_2[/tex](g) → 4CO[tex]_2[/tex](g) + 6H[tex]_2[/tex]O(g)

Therefore, the balanced equation is

2C[tex]_2[/tex]H[tex]_6[/tex](g) + 7O[tex]_2[/tex](g) → 4CO[tex]_2[/tex](g) + 6H[tex]_2[/tex]O(g)

Learn more about the balanced equation, here:

https://brainly.com/question/7181548

#SPJ2

Answer:

Avogadro's law, a statement that under the same conditions of temperature and pressure, equal volumes of different gases contain an equal number of molecules.

Answer:

6.02 x 10^23 moles of any substance is one mole.

Explanation:

Answer:

G - H2SO4

Explanation:

two hydrogen atoms and 4 oxygen atoms

Answer:

Earth's plates meet at BOUNDARIES. Breaks in the crust called FAULTS form where plates meet. ... Most TRANSFORM BOUNDARIES where plates move apart occur along the mid-ocean ridges.

Explanation:

i hope this helped you ;)

Answer:

c.hg cannot be cracked for fractional distillation as there is only one of each

Explanation:

Answer:

Hydrogen and Oxygen

Explanation:

Hydrogen atomic mass = 1.008  amu

atomic mass = 15.999  amu

According to the periodic table, two elements whose  atomic mass is less than twice their atomic number are hydrogen and oxygen.

The atomic number of an atom refers to the number of protons in that atom. It serves as an identity for atoms of elements. The atomic mass of element is the weighted average of the masses of all the isotopes of the element.

The atomic number of oxygen is 8 while the atomic number of hydrogen is 1. The atomic mass of oxygen is 15.999 amu while the atomic mass of hydrogen is 1.0008 amu.

We can see that twice the atomic number of oxygen gives sixteen while twice the atomic number of hydrogen gives two. Therefore,  two elements whose  atomic mass is less than twice their atomic number are hydrogen and oxygen.

Learn more: https://brainly.com/question/2673886

Answer:

A

Explanation:

matter has mass and undergoes a phase change

Salt increases the boiling point and decreases the melting point of water. That means if you add salt before heating some water on the stove, it will take longer to boil. Also, if you add salt to ice, it will melt faster.

What is the melting point?

Melting point is the temperature at which a given solid material changes from a solid state to a liquid, or melts.

Salt makes water boil at a higher temperature - water sticks to the salt ions, so they can't get out of the liquid as easily.

Salt makes water freeze at a lower temperature - it's probably harder for the water molecules to get organized into a solid-state with all the salt ions messing up its structure.

Hence, as the moles of salt are added melting point of the water increases.

Learn more about the melting point here:

https://brainly.com/question/5753603

#SPJ2

Answer:

I a, answering so the other dude can get brainily oh and yeah its b

Explanation:

The excessive pumping of water through well is the major reason for the drop of ground water level. The nearby farms over use water and pumps from undergrounds.

Water beneath the earth surface is called ground water. The storage of ground water is a very important in all areas to sustain our need for water and it must be maintained pure without the presence of overdose of heavy metals and other impurities.

Reduction in the level of ground water storage is a serious issue that might leads to a scenario where the drinking water is not sufficient. The uncontrolled use of pump water by factories,  industries and farms results in the drop of ground water level.

The nearby farms might pumping water from sources uncontrollably in the area. That is the main reason of dropping in ground water level. Hence, option B is correct.

Find more on groundwater storage:

https://brainly.com/question/29749698

#SPJ2

Answer:

8. 171074.8 mL

9. 3475 mL.

Explanation:

8. Determination of the volume of the diluted solution.

Initial Molarity (M₁) = 14 M

Initial volume (V₁) = 523 mL

Final Molarity (M₂) = 0.0428 M

Final volume (V₂) =?

Using the dilution formula, we can obtain the volume of the diluted solution as follow:

M₁V₁ = M₂V₂

14 × 523 = 0.0428 × V₂

7322 = 0.0428 × V₂

Divide both side by 0.0428

V₂ = 7322 / 0.0428

V₂ = 171074.8 mL

Therefore, the volume of the diluted solution is 171074.8 mL

9. Determination of the volume of water added.

We'll begin by calculating the final volume of the solution. This can be obtained as follow:

Initial Molarity (M₁) = 3.2 M

Initial volume (V₁) = 973 mL

Final Molarity (M₂) = 0.7 M

Final volume (V₂) =?

M₁V₁ = M₂V₂

3.2 × 973 = 0.7 × V₂

3113.6 = 0.7 × V₂

Divide both side by 0.7

V₂ = 3113.6 / 0.7

V₂ = 4448 mL

Thus, the final volume of the solution is 4448 mL

Finally, we shall determine the volume of water added. This can be obtained as follow:

Initial volume (V₁) = 973 mL

Final volume (V₂) = 4448 mL

Volume of water added =?

Volume of water added = V₂ – V₁

Volume of water added = 4448 – 973

Volume of water added = 3475 mL

Answer:

the answer is carrying oxygenated blood and nutrients to cells