the nucleus of every atom contains protons. true or false?

Based on the given bright-line spectra and the observed wavelengths in the mixture's spectrum, the elements G and J are the ones present in the mixture.

From the given bright-line spectra and the spectrum of the mixture, we can determine the elements present in the mixture by comparing the specific wavelengths observed. Examining the bright-line spectra, we can identify that G has a distinct wavelength at 650 nm, J at 600 nm, L at 550 nm, and M at 500 nm.

Looking at the spectrum of the mixture, we can observe two prominent wavelengths, 650 nm and 600 nm. These correspond to the wavelengths of G and J, respectively. Since the spectrum of the mixture does not exhibit the wavelengths specific to L (550 nm) or M (500 nm), we can conclude that only G and J are present in the mixture.

Therefore, based on the given bright-line spectra and the observed wavelengths in the mixture's spectrum, the elements G and J are the ones present in the mixture.

This analysis relies on the principle that each element has characteristic wavelengths at which they emit light. By comparing the observed wavelengths in the mixture's spectrum with those of the individual elements, we can determine the elements present in the mixture.

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Answer:

Tcs foods are foods that pose a greater risk of causing foodborne illness if not prepared.

Non Tcs foods on the other hand, are foods that are less likely to support the growth of bacteria and have a lower risk of causing foodborne illness.

The sun, the moon, the stars, the earth all are made up of matter.

Matter refers to anything that has mass and occupies space. It is the substance that makes up all physical objects in the universe, including both living and non-living things. Matter can exist in different states, namely solid, liquid, and gas, depending on the arrangement and movement of its particles. Matter is composed of atoms, which are the smallest units of matter that retain the chemical properties of an element. Atoms combine to form molecules, which can be made up of one or more different types of atoms bonded together. These molecules then come together to form different substances.

The properties of matter, such as its density, color, texture, and ability to conduct heat or electricity, are determined by the composition, arrangement, and interactions of its particles. Matter can undergo physical and chemical changes, including phase transitions (such as melting, freezing, and vaporization) and chemical reactions, where substances can be transformed into new substances with different properties. It is important to note that matter also includes forms that are not directly visible to the  eye, such as subatomic particles

The sun, the moon, the stars, and the Earth are all made up of matter. Matter refers to anything that has mass and occupies space. It is composed of atoms and molecules, which are the building blocks of all substances. While symbols can represent or signify various concepts or objects, they are not physical entities made up of matter. A mixture is a combination of two or more substances, but it does not encompass celestial bodies like the sun, moon, stars, or Earth. Material is a more general term that can refer to various physical substances, but it does not specifically indicate the composition or nature of celestial bodies.

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Answer::

Explanation::

The combustion of 4.7 kg of pure octane ([tex]C_8H_{18[/tex]) produces approximately 15 kg of carbon dioxide ([tex]CO_2[/tex]).

1. Start by writing the balanced equation for the combustion of octane ([tex]C_8H_{18[/tex]):

  [tex]C_8H_{18[/tex] + 12.5O2 → [tex]8CO_2[/tex] + [tex]9H_2O[/tex]

  This equation shows that for every 1 mole of octane burned, 8 moles of carbon dioxide and 9 moles of water are produced.

2. Determine the molar mass of octane ([tex]C_8H_{18[/tex]):

  The molar mass of carbon (C) is approximately 12.01 g/mol.

  The molar mass of hydrogen (H) is approximately 1.008 g/mol.

  Calculating the molar mass of octane: (8 * 12.01 g/mol) + (18 * 1.008 g/mol) ≈ 114.23 g/mol.

3. Calculate the number of moles of octane in 4.7 kg:

  Number of moles = mass (in grams) / molar mass

  Moles of octane = (4.7 kg * 1000 g/kg) / 114.23 g/mol ≈ 41.11 mol

4. Determine the number of moles of carbon dioxide produced:

  From the balanced equation, we know that for every mole of octane burned, 8 moles of carbon dioxide are produced.

  Moles of carbon dioxide = 41.11 mol octane * 8 mol CO2 / 1 mol octane ≈ 328.88 mol

5. Calculate the mass of carbon dioxide produced:

  Mass = moles * molar mass

  Mass of carbon dioxide = 328.88 mol * (12.01 g/mol + 2 * 16.00 g/mol) ≈ 7,883.51 g ≈ 7.88 kg

6. Express the answer using two significant figures:

  The mass of carbon dioxide produced is approximately 7.88 kg when 4.7 kg of octane is burned.

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