1, This element has a complete outermost energy level and is found in the 5th period. 2. This element has 2 electrons it its outermost energy level and belongs to the 2nd period.
3. This element has 3 electrons in its Lewis dot structure and is in the 3p orbital section.
4. This element has 74 protons.
5.This element in the 4th period wants to gain one electron to make an ionic bond.
6. This element is the halogen in the 5th period.
7. This metalloid has 3 electrons in its 5p orbitals.
8. This element in the 5th period wants to lose two electrons to make an ionic bond.
9. This malleable metal has an atomic number of 47.
10.This element in the 2nd period will form an ionic compound with a 1:1 atom ratio with Magnesium.
11.This element has an electron configuration of 1s2 2s2 2p6 3s2 3p6 4s2 3d10 4p6 5s2 4d10 5p4.
12. This element was named for the scientist who discovered the nucleus of the atom using gold foil.
13. This noble gas belongs to the 6th period.
14. This element has 1 electron in its 4d orbital section.
15. This 3rd period element will not form compounds because it fits the Octet Rule.

Answers

Answer 1

Answer: 1) Xenon
2) Berylium
3) Aluminium (Assuming 3p = 3rd Period)
4) Tungsten
5) Bromine
6) Xenon again
7) Indium I think
8) Strontium
9) Titanium
10) Oxygen
11) I don't understand that at all XD
12) Rutherfordium
13) Radon
14) Potassium?
15) Argon

So somebody needs to confirm 3, 7, 11, and 14, but I think the rest are correct if you load up a Periodic table

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A 3.50 g sample of an unknown compound containing only C , H , and O combusts in an oxygen‑rich environment. When the products have cooled to 20.0 °C at 1 bar, there are 4.41 L of CO2 and 3.26 mL of H2O . The density of water at 20.0 °C is 0.998 g/mL.

Which step would help a student find the molecular formula of a compound from the empirical formula?Multiply the ratio of the actual mass of the compound to the empirical formula mass by the subscripts of the empirical formula.

Subtract the ratio of the actual mass of the compound to the empirical formula mass from the subscripts of the empirical formula.

Divide the ratio of the actual mass of the compound to the empirical formula mass by the subscripts of the empirical formula.

Add the ratio of the actual mass of the compound to the empirical formula mass to the subscripts of the empirical formula.

Answers

Answer : Option A) Multiply the ratio of the actual mass of the compound to the empirical formula mass by the subscripts of the empirical formula.

Explanation : To find molecular formula for a compound one needs to follow the below steps using the emphirical formula of that compound.

Step 1) Calculate the empirical formula mass of that compound

Step 2) Take the ratio of gram molecular mass by the empirical formula mass that was obtained in step 1.

Step 3) Multiply each of the subscripts within the empirical formula by the number that is calculated in step 2.

By following these easy steps one can find the molecular formula.

The step that would help a student finds the molecular formula of a compound from the empirical formula is by ‘Multiply the ratio of the actual mass of the compound to the empirical formula mass by the subscripts of the empirical formula.’

Which element is classified as an alkali metal?
Rb
Sr
Zr
Cl

Answers

Hi there.

Alkali metals are known as the group 1 elements.

When we know this, we just have to look to group 1 of the periodic table.

Rb (Rubidium) is in group 1; it is classified as an alkali metal.

~

Answer:

Explanation:

on edge

The molar mass of copper(II) chloride (CuCl2) is 134.45 g/mol. How many formula units of CuCl2 are present in 17.6 g of CuCl2? 7.88 × 1022 formula units 1.84 × 1023 formula units 1.91 × 1023 formula units 1.42 × 1024 formula units

Answers

7.88 10^22 formula units

The answer is,

A. 7.88 × 1022 formula units

ANSWER FAST WILL GIVE BRAINLISTAn ionic compound is typically made of A. two metals. B. two nonmetals. C. a metal and a nonmetal. D. none of the above.An ionic compound is typically made of A. two metals. B. two nonmetals. C. a metal and a nonmetal. D. none of the above.

Answers

The answer to your question is D. none of the above. Ionic compounds are compounds composed of ions, charged particles that form when an atom (or group of atoms) gains or loses electrons. (A cation is a positively charged ion; an anion is a negatively charged ion.) Covalent or molecular compounds form when elements share electrons in a covalent bond to form molecules. I hope this helps.

Answer:

The answer is C. a metal and a nonmetal.

Explanation:

A covalent compound is formed when an element shares its valence electron with another element. This bond is formed between two non metals. Example:

An ionic compound is formed when one element completely transfers its valence electron to another element. The element which donates the electron is known as electropositive element and the element which accepts the electrons is known as electronegative element. This bond is formed between a metal and an non-metal. Example:

Thus an ionic compound is typically made of a metal and a nonmetal.

The universe cooled after the Big Bang. At some point, hydrogen atoms combined to form helium. What is this process called?

Answers

When hydrogen atoms combined to form helium, this process is known as nuclear fusion.

What is nuclear fusion?

Nuclear fusion can be described as when two or more nuclei fuse to produce a single heavier nucleus. In this reaction, the matter is not conserved due to some of the mass of the nuclei is converted to energy.

For nuclear fusion, the nuclei should be brought together reaction to occur. Each star in the universe, including the sun, is shine due to nuclear fusion. They form huge amounts of energy through this process.

In the core of the Sun, hydrogen nuclei are being transformed into helium. This is known as nuclear fusion. It occurs when four hydrogen atoms fuse into each helium atom. During this process, some of the mass of hydrogen nuclei is converted into energy.

Nuclear fusion where hydrogenatoms combined to form helium can be represented as:

$4^1_1H\; \longrightarrow ^4_2He \; + 2\;^0_(+1)e \; + \;energy$

Learn more about nuclear fusion, here:

brainly.com/question/12701636

#SPJ6

In the basic Hydrogen fusion cycle, four Hydrogen nuclei (protons) come together to make a Helium nucleus. This is the simple version of the story. There are actually electrons, neutrinos and photons involved that make the fusion of Hydrogen into Helium possible.

Why am i not good enough :,(

Answers

You are good enough. Times are tough know but believe it’ll get better.

there is no answer

because everyone is perfect in their own way

;)

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