In a chemical interaction 10 g of hydrogen chloride is added to 20 g of zinc to form 24 g of zinc chloride and a certain amount of hydrogen gas. What mass of hydrogen gas is expected to be formed? 6 g ,14 g ,34 g ,54 g

The name of the pivotal moment marking the beginning of a significant transformation in science, often referred to as the "start of something new," is the Scientific Revolution.

This period, which began in the 16th century and continued through the 17th century, laid the foundations for modern science and drastically changed the course of scientific inquiry and thought.

During the Scientific Revolution, there was a shift from qualitative explanations of nature to quantitative and empirical methods. This era saw monumental figures like Nicolaus Copernicus, who proposed a heliocentric model of the solar system; Galileo Galilei, who improved the telescope and provided evidence supporting Copernican theory; Johannes Kepler, who formulated the laws of planetary motion; and Isaac Newton, who developed the laws of motion and universal gravitation. These advancements and many others set the stage for the Age of Enlightenment and the subsequent Industrial Revolution, profoundly impacting the development of technology and the modern world.

Answer: The coefficient of [tex]H_2O[/tex] in the balanced chemical equation is 4.

Explanation:

Every balanced chemical equation follows Law of conservation of mass.

This law states that mass can neither be created nor be destroyed, but it can only be transformed from one form to another form. This also means that the total number of individual atoms on the reactant side will be equal to the total number of individual atoms on the product side.

For the given balanced chemical equation:

[tex]Fe_3O_4+4H_2\rightarrow 3Fe+4H_2O[/tex]

The coefficient of [tex]H_2O[/tex] in the balanced chemical equation is 4.

Final answer:

The coefficient of H2O in the balanced chemical equation Fe3O4 + H2 ⟶ Fe + H2O is 4.

Explanation:

The coefficient of

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O in a chemical equation represents the number of water molecules involved in the reaction. It's the number written in front of

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O to balance the equation in terms of mass and charge.

The student asked about the coefficient of H2O in the balanced equation Fe3O4 + H2 → Fe + H2O. When balancing this equation, we must ensure that the number of atoms of each element is equal on both sides of the reaction. Balancing iron (Fe) and oxygen (O) first, we find that the balanced equation is Fe3O4 + 4H2 → 3Fe + 4H2O. So, the coefficient of H2O in the balanced equation is 4.

Final answer:

The processes at work here are evaporation and condensation. When the boiling water molecules gain enough energy to escape the liquid and enter the air as vapor, evaporation occurs. The water vapor then condenses back into liquid form on the cooler window glass, resulting in fog.

Explanation:

The processes at work in this situation are evaporation and condensation.

Evaporation occurs when the boiling water molecules gain enough energy to escape the liquid and enter the air as vapor. This is why the kitchen window fogs up; the water vapor from the boiling noodles comes into contact with the cooler window glass and condenses back into liquid form, forming water droplets that appear as fog.

Condensation is the process by which a gas or vapor changes back into a liquid. In this case, the water vapor condenses on the cold window, which has a lower temperature than the boiling water and causes the vapor to lose energy and revert to its liquid state.

The correct option that indicates a chemical change is D (When H2S gas is bubbled into a lead acetate solution, a precipitate forms), as a new substance is formed which represents a chemical change.

A sign of a chemical change is typically indicated by a change in composition and/or appearance due to a chemical reaction. Options A, B, and C are examples of physical changes where there’s a change in the state or appearance without a change in the composition. The correct answer is choice D: When H2S gas is bubbled into a lead acetate solution, a precipitate forms. This is an example of a chemical change as a new substance is formed: lead sulphide, which is the precipitate.

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When an object acts as a transmitter, it emits electromagnetic waves produced by vibrating charged particles. These waves, carrying energy and information, can induce a current in a receiver like an antenna which can be tuned to detect a specific frequency.

When object A acts as a transmitter, it emits electromagnetic waves, such as radio waves. These electromagnetic waves are produced by vibrating charged particles, and propagate outward from the transmitter. This is similar to how a standing wave on a guitar string distributes sound.

For example, in radio transmission, these waves create a feeble current in a conductor such as an antenna. The current or signal in the antenna is then amplified in a radio receiver until it is strong enough to measure or record. The receivers can be tuned to select a single frequency channel, in much the same way as you would tune your television or radio. In advanced applications such as astronomy, more sophisticated data-processing techniques are used to detect thousands of separate frequency bands simultaneously.

In summary, a transmitter such as object A produces electromagnetic waves that carry energy and information from one place to another.

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The beryllium atom, with an atomic number of 4, has a total of four protons and electrons, with two electrons in both the 1s and 2s orbitals. It has two valence electrons in the 2s orbital and can form molecular compounds like beryllium hydride (BeH2) by making two single covalent bonds.

The structure of a beryllium atom can be described by its position as the first element of Group 2 in the periodic table, with an atomic number of 4. This number represents the amount of protons in the nucleus and also the electrons surrounding the nucleus since the atom is electrically neutral. Beryllium's electron configuration includes two inner shell (1s) electrons and two outer shell (2s) electrons, with both shells being s orbitals. Thus, the outermost shell holds the two valence electrons in the 2s orbital.

As a result, the electron dot diagram for beryllium resembles that of helium, with a pair of dots representing the two valence electrons. When forming compounds, such as gaseous beryllium hydride (BeH2), beryllium is capable of making two single covalent bonds, as its small size and comparatively higher ionization energy lead to the formation of molecular rather than ionic compounds. Despite its capacity to form covalent bonds, beryllium typically does not achieve a complete octet in its bonding behavior.

Answer:

Oxidation reaction

Explanation:

Rust is formed when iron reacts with oxygen in moist air. The following chemical equation represents the reaction: 4Fe + 3O2 → 2Fe2O3. Water is necessary for the oxidation reaction to occur and to facilitate transport of the electrons

Answer:

C The Model of Weather systems

Explanation:

I don't Have a Explanation tho there is another explanation before me.

Answer:

Gamma rays

Explanation:

Gamma rays have the highest energy,lowest wavelength and highest frequency. On the other hand radio waves have the lowest energy and highest wavelength.

The energy in clam chowder is measured in kilocalories (kcal or nutritional Calories), which is part of its nutritional information. The actual amount varies depending on specific recipe or brand.

The amount of energy, specifically the caloric content, in clam chowder or any other food, is typically detailed in the food's nutritional information. In terms of dietary consumption, energy is usually given in terms of Calories (note the capital 'C'), also known as nutritional calories or kilocalories (kcal). One nutritional Calorie is equal to 1 kcal, or 1000 basic chemistry calories (cal) - this is approximately the amount of energy required to heat 1 kg of water by 1 °C.

However, without specific nutritional information about the particular clam chowder in question, we can't give a specific kcal value. The calories in clam chowder can significantly vary depending on the specific recipe or brand, including variables such as the presence and amount of different ingredients like cream, clams, potatoes, etc.

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The wavelength of radiation with a frequency of [tex]8.0 \times 10^{14} Hz[/tex] is 375 nm, calculated using the relationship between wavelength, frequency, and the speed of light [tex](3.00 \times 10^8 m/s)[/tex].

To calculate the wavelength of radiation with a given frequency, we can use the formula that relates wavelength, frequency, and the speed of light:

[tex]\(\lambda = \frac{c}{f}[/tex]

The speed of light (c) in a vacuum is approximately [tex]3.00 \times 10^8[/tex] meters per second (m/s).

Given the frequency (f) of [tex]8.0 \times 10^{14} Hz[/tex], we can calculate the wavelength by substituting these values into the equation:

[tex]\(\lambda = \frac{3.00 \times 10^8 m/s}{8.0 \times 10^{14} Hz}[/tex]

Now, let's perform the calculation:

[tex]\(\lambda = \frac{3.00 \times 10^8}{8.0 \times 10^{14}} meters[/tex]

[tex]\(\lambda = 3.75 \times 10^{-7} \left meters, \left or \left 375 nm[/tex]

So, the wavelength of radiation with a frequency of [tex]8.0 \times 10^{14} Hz[/tex] Hz is 375 nm.

The answer is C) Feeling the heat from a light bulb with your hand when touching the bulb. :)

Answer: Option (C) is the correct answer.

Explanation:

When two substances or objects are at different temperature and heat from object 1 flows to object 2 when both of them are placed touching each other then this process is known as conduction.

For example, when we touch a light bulb then heat from the bulb flows into the hand.

Thus, we can conclude that out of the given options, feeling the heat from a light bulb with your hand when touching the bulb is best categorized as heat transfer by conduction.

The periodic table is called the periodic table because it repeats. All the elements on the periodic table are arranged by atomic number so the elements repeat. It’s almost like in school when you have switch classes they repeat as well. It’s very fascinating to see all these elements organized it the way that that they are.

Random errors in experiments can be reduced through increasing the sample size and repeated measurements. For systematic errors, calibration of the instrument, rigorous experimental design and the use of control groups can significantly reduce the errors.

The random and systematic errors in experiments can be significantly reduced using a variety of methods. For random errors, increase the sample size and perform repeated measurements to identify and eliminate outliers, thereby increasing the precision of your results.

To overcome systematic errors, calibration of the measuring device should be done before conducting the experiment to ensure accuracy. Experimental design should be rigorously done which includes controlling the environment to eliminate external factors that may affect measurements. The use of a control group and careful observation during experimental manipulation can also reduce systematic error.

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Answer is: soap.

Soap is a salt of a fatty acid and alkaline (basic) solution.  An alkaline solution induces saponification of triglyceride fats into salts of fatty acids.

Toilet soap has sodium and potassim cations.  Metallic soap have magnesium and calcium cations.

Sodium soaps, made from sodium hydroxide are firm and potassium soaps, made from potassium hydroxide, are softer or often liquid.

Answer:

soap

Explanation:

im just tryna get them coins sis...