Everyone in Mrs. Blaylock's science class must perform an experiment for the science fair this year. To begin this process, Mrs. Blaylock asks her students to brainstorm four different questions that they could study.

One of Mrs. Blaylock's students writes down the following questions.
How does the mass of a toy car affect its speed down a ramp?

How does the position of the Sun, moons, planets and stars affect a person's personality traits and daily behavior patterns?

Which type of pan - copper, aluminum, or glass - heats up the quickest?

Which type of chemicals can remove the cell wall of a plant cell?
Which of the above questions cannot be answered through a scientific investigation?

Answer:

The name of that compound is Nickel(||)iodide

Answer: Nickel(II) iodide

Explanation:

Answer: option c. protons and neutrons

Explanation:

Answer: Protons and Neutrons

Explanation: The nucleus is a dense structure in an atom. It consists of positively charged protons and neutrally charged neutron. This makes the nucleus a positively charged region in an atom.

Answer: b// dispositional attribution

Explanation:

Answer:

B. Dispositional Attribution

Explanation:

Dispositional Attribution means citing a person's qualities as the reasons for his or her actions or experiences.

Answer:

C

Explanation:

One electron is needed to completely fill the outer shell of this atom.

The number of electrons, protons, and neutrons in the atom are:

Number of electrons = 9

Number of protons = 9

Number of neutrons = 11

The number of additional electron needed is 1

The correct answer to the question is Option C. 9 electrons, 9 protons, 11 neutrons; 1 additional electron is needed to completely fill the outer shell of this atom

Fluorine is a member of the group 17 element called Halogens. They have 7 valence electrons.

NOTE: The nucleus contains the neutrons and the protons while the electrons revolve around the nucleus.

From the diagram given above, the following data were obtained:

Number of electrons = 9

Number of protons = 9

Number of neutrons = 11

Valence electron = 7

Now, we can see that the fluorine atom has 7 valence electrons. Thus, fluorine atom will require 1 electron to complete its outermost shell.

Thus, the correct answer to the question is Option C. 9 electrons, 9 protons, 11 neutrons; 1 additional electron is needed to completely fill the outer shell of this atom

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Answer:

Al+3

Explanation:

Ion is a positively or negatively charged species. A neutral species does not carry any charge.

here only Al has +3 charge. So it is an ion.

Answer:

B

Explanation:

it depends if the weather was cold but ummm they warm and cold air would mix and turn story and watch out tornadoes could also happen

Answer:

Stormy

Explanation:

Apex

A habitat change can be caused by introduction of an invasive species, wildlife and mudslides. Therefore, option (d) is correct.

Habitat change can take place naturally through disease, droughts, fire, hurricanes, mudslides, volcanoes, earthquakes, or precipitation, etc.

However, it is commonly induced by human activities like land use change and physical modification of rivers.

Habitats can change over time due to natural and manmade effects. Natural influences involve seasonal changes, drought, flooding, and natural succession. Manmade effects include conversion of land from forests to farms, and pollution.

Habitat destruction through natural processes like volcanism, wildfire, and climate change. Habitat fragmentation of tropical rainforests led to a great loss of amphibian diversity, but at same time the drier climate spurred on a burst of diversity among reptiles.

An invasive species are an introduced organism that gets overpopulated and harms new environment.

Therefore, mudslides, wildlife and invasive species can cause habitat change.

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Answer:she did not do it in the correct order

Explanation:

Lisa violated several lab safety rules. Here are the specific safety protocols that Lisa failed to follow:

1. Wearing a lab coat: Lisa was not wearing a lab coat, which is essential personal protective equipment (PPE) in a laboratory setting. Lab coats protect the skin and clothing from spills and splashes of hazardous substances.

2. Wearing gloves: Lisa did not have gloves on when handling the chemical. Gloves are necessary to prevent skin contact with chemicals, which could cause irritation, burns, or be absorbed through the skin.

 3. Wearing safety goggles: Lisa was not wearing safety goggles. Eye protection is crucial to prevent injury from chemical splashes, vapors, or flying objects.

4. Proper disposal of broken glassware: Lisa placed the broken glassware in the regular trash bin. Broken glassware should be disposed of in a designated sharps container to prevent injury to others who may come into contact with the trash.

5. Proper storage of chemicals: Lisa returned the bottle of acetone to the wrong shelf. Chemicals should always be stored in their correct, designated locations to prevent incompatibility reactions (e.g., mixing of acids and bases, oxidizers and flammables) that could lead to fires, explosions, or the release of toxic fumes.

 6. Leaving the fume hood open: Lisa left the sash of the fume hood open. The sash should be closed to the proper working level to contain and exhaust fumes and vapors from the laboratory.

7. Using a spatula to transfer chemicals: Lisa used a metal spatula to transfer a solid chemical. Depending on the reactivity of the chemical, a metal spatula could introduce contamination or react with the chemical. It is important to use the appropriate tool for the task, often a plastic or ceramic spatula for corrosive substances.

 8. Ignoring the chemical's label: Lisa did not read the label on the chemical bottle before use. It is essential to read and understand the labels and safety data sheets (SDS) for all chemicals to be aware of their properties, hazards, and handling procedures.

 9. Not using a pipette bulb or pipette filler: Lisa used her mouth to pipette the solution, which is extremely dangerous. Using the mouth to pipette can lead to ingestion or inhalation of hazardous chemicals. Instead, a pipette bulb or a mechanical pipette filler should be used.

 10. Not securing her hair: Lisa's hair was not tied back or covered, which can be a hazard near open flames or when working with volatile chemicals. Hair should be secured to prevent it from catching fire or coming into contact with hazardous materials.

 In summary, Lisa's actions in the lab were not in compliance with standard laboratory safety practices, which are designed to protect her and others from potential harm. It is critical for anyone working in a laboratory to adhere strictly to safety guidelines to minimize the risk of accidents and exposure to hazardous materials."

Answer:it is necessary to use colourless

Explanation: A pure substance generally has a melting range (the difference between the temperature where the sample starts to melt and the temperature where melting is complete) of one or two degrees. Impurities tend to depress and broaden the melting range so the purified sample should have a higher and smaller melting range than the original, impure sample

Clear colourless oil is necessary in determining the melting point of naphthalene, as it allows for uniform heat distribution, accurate temperature readings, and better viewing of the changes in the sample's state.

Clear colourless oil is used in the determination of the melting point of naphthalene to ensure accurate readings. The oil serves as a medium to uniformly distribute heat around the naphthalene sample. If the oil were coloured or not transparent, it would absorb some of the heat, thereby affecting the temperature distribution and potentially the accuracy of the melting point. In addition, the clear oil helps let visible light pass through, allowing for better viewing of the naphthalene as it changes from solid to liquid. Therefore, achieving accurate results in this experiment heavily relies on the use of clear colourless oil.

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Electronegativity of an element decreases as we move down a group on the periodic table and electronegativity increases while moving from left to right across a period on the periodic table.

Explanation:

Answer:

No, the SI units are for measuring.

Explanation:

Answer:

0.1113  mol

Explanation:

Data Given:

no. of atoms of CH₄= 6.70 x 10²² atoms

no. of moles of methane (CH₄) = ?

Solution:

we will find no. of moles of methane (CH₄)

Formula used

          no. of moles = no. of atoms / Avogadro's number

Where

Avogadro's number = 6.022 x 10²³

Put values in above equation

         no. of moles = 6.70 x 10²² atoms / 6.022 x 10²³ (atoms/mol)

         no. of moles = 0.1113  mol

So,

There are 0.1113 moles of methane.

Answer:

A

Explanation:

During the light reaction of photosynthesis Water molecules split apart.

1. Water molecules split apart

Explanation:

Photosynthesis is the method by which plants, some bacteria and some protistans, a eukaryotic organism utilise the energy from daylight to generate  Water molecules split apart. This can be turned into pyruvate which issues adenosine triphosphate (ATP) by cellular breath. This light initiated chlorophyll will part the water particle. This procedure is called Photolysis. Water atom is part to discharge H+ particles and furthermore oxygen.

Answer:

1.Water molecules split apart

Explanation:

Photosynthesis occurs in two stages.; Light phase and dark phase.

During the light phase, water molecules split apart when sunlight reaches them to produce hydrogen and oxygen together with electrons that enter into the electron transport chain. This is known as the photolysis of water.

This is the first stage of photosynthesis. The products of this reaction are involved in the dark stage of photosynthesis which occurs in the absence of sunlight.

Answer:

Most of us use the word 'heat' to mean something that feels warm, but science defines heat as the flow of energy from a warm object to a cooler object.

Explanation:

Heat energy is the result of the movement of tiny particles called atoms, molecules or ions in solids, liquids and gases.

At a molecular level, heat is the transfer of energy that makes use of or stimulates disorderly molecular motion in the surroundings.

Heat, is defined as the transfer of thermal energy until equilibrium is reached, measured in joules. It is distinct from temperature, which measures average kinetic energy per molecule and does not involve energy transfer.

The scientific definition of heat is the amount of thermal energy that is transferred between systems or objects with differing temperatures. This transfer of thermal energy occurs until thermal equilibrium is reached, meaning no net flow of thermal energy between the systems.

Unlike temperature, which is measured in degrees, heat is quantified in joules (J), a unit that measures energy. The concept of heat is central to the field of thermodynamics, which studies the relationships between heat, work, and energy. An everyday example of heat transfer is when you drink hot coffee; the heat from the coffee transfers to your mouth, causing it to warm up.

Answer:

Magma convection moves heat from Earth’s deep interior up to the crust, where it can be used to produce energy.

Explanation:

Magma convection aid in the production of geothermal energy is that Magma convection moves heat from Earth’s deep interior up to the crust, where it can be used to produce energy.

It is a type of energy which is having its source from the crust of the earth that is is is mainly given by the earth's crust

This originates from the formation of planets and radioactivity. The high temperature and pressure in Earth's interior cause some rock to melt and the solid mantle to behave plastically.

This results in parts of the mantle convicting upward since it is lighter than the surrounding rock.

Mostly used in electricity production in geothermal plants. a distinction is made between two different types of geothermal: direct use and indirect use.

Therefore, it is geothermal energy.

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Answer:

Convection.

Explanation:

Let us define each of the type of thermal transfer first:

- radiation is heat transfer that does not include contact between the objects. It's mediated by infra-red radiation, waves from the invisible radiation spectrum.

- conduction is heat transfer which is mediated through direct contact between objects (holding a hot cup of tea, for example)

- convection is a heat transfer found in gases and liquids. Due to different temperatures in two parts of liquid, there will also be a different density ( hotter parts have lower density). Lower density parts will start moving upwards while higher density parts, due to gravity, will move downward. As they move, they will gain or receive heat, which will cause new temperature differences and the moving will restart.

Convection is the method of heat transfer that involves the movement of fluids with different temperatures and densities. Conduction involves direct contact between objects, and radiation transfers heat via electromagnetic waves. These methods can occur simultaneously and are driven by temperature differences.

Heat can be transferred in three ways: conduction, convection, and radiation. Among these, convection involves the movement of fluids (liquids or gases) of different temperatures and densities. When a fluid is heated, it becomes less dense and rises, while cooler, denser fluid sinks, creating a circulatory movement known as a convection current.

This process of heat transfer is evident in phenomena such as boiling water, where the hot water at the bottom rises to the top as it warms up, or in atmospheric circulations like sea breezes.

Conduction, in contrast, is the transfer of heat between two objects in direct contact with each other, and it occurs in solids, liquids, and gases, though it is most efficient in solids. Radiation is the transfer of energy by electromagnetic waves and can occur through a vacuum, as in the case of heat from the sun reaching Earth.

All three heat transfer methods are driven by a temperature difference and can occur simultaneously under certain conditions.

B because machined make work 2x more work or higher

Final answer:

The best choice is B. Simple machines are tools that make work easier by providing a mechanical advantage, meaning they can change the amount of force required to do work, although the total work done remains constant due to the conservation of energy.

Explanation:

The choice that best completes the following sentence is option B: Simple machines are tools that make work easier.

Simple machines, such as levers, gears, pulleys, wedges, and screws, are devices used to multiply or augment a force we apply often at the expense of a distance through which we apply the force. They do not decrease the total amount of work that needs to be done. According to the principle of conservation of energy, a machine cannot output more work than the energy put into it. Instead, simple machines are beneficial because they can change the amount of force required to do work by providing a mechanical advantage (MA), even though the product of force and distance (which equals work) must remain constant.

Answer:

The line of best fit

Explanation:

The line of best fit is the average, aka a trend

In a line graph, the line itself, connecting data points, shows trends. Scientists analyze its slope and direction to understand patterns and variations in the data.

In a line graph, the trends are primarily represented by the line itself. A line graph is a type of chart that displays data points connected by a continuous line. Each data point typically represents a pair of values, one on the horizontal axis (usually the independent variable) and one on the vertical axis (usually the dependent variable).

The line in a line graph shows how the dependent variable changes as the independent variable varies. By examining the direction, slope, and shape of the line, scientists and researchers can identify and communicate various trends in the data. Here's how:

1. Direction of the Line: The direction of the line indicates whether the dependent variable is increasing or decreasing as the independent variable changes. A rising line suggests an increase in the dependent variable, while a falling line suggests a decrease.

2. Slope of the Line: The slope of the line represents the rate of change of the dependent variable concerning the independent variable. A steeper slope indicates a more rapid change, while a shallower slope suggests a slower change.

3. Curvature of the Line: Sometimes, the line may curve, indicating a nonlinear relationship between the variables. The curvature might imply acceleration, deceleration, or other complex patterns.

In addition to the line itself, trendlines or best-fit lines can be added to a graph to provide a smoother representation of the overall trend in the data. These trendlines help researchers make predictions and identify general patterns within the data.

Overall, a line graph is a powerful tool for visualizing and conveying data trends, making it a valuable tool in scientific research, data analysis, and communication. Researchers can quickly grasp the direction and magnitude of changes in the dependent variable as it relates to variations in the independent variable.

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Answer:

Is there supposed to be options I don't understand the question

Answer:

D.

Explanation:

I just did the question and a was wrong.

It said D was correct.

Answer: D. have lower atomic numbers than the elements in the rows near the bottom

Explanation:

Answer:

The identity of element X is Boron (R.A.M =10.81)

Explanation:

We are given;

Element X,

We are required to identify the element X

Then, how do we get R.A.M of an element?

R.A.M. = ((Mass of isotope-1 × R. abundance) + (mass of isotope-2 × R. abundance)) ÷ 100

Therefore, in this case;

R.A.M. of X = ((mass of X-10 × R.abundance) + (mass of x-11 × R. abundance))÷ 100

Thus;

R.A.M of X = ((10 × 19.9) + (11 × 80.1)) ÷ 100

                 = 10.81

Thus, the relative atomic mass of X is 10.81.

The identity of element X is Boron. (Boron has an R.A.M of 10.81)

The element X in the question is most likely boron, as the isotope abundances given closely match those of boron's two naturally-occurring isotopes, boron-10 and boron-11.

The question is asking about the identity of element X which has two naturally-occurring isotopes: X-10 with an abundance of 19.9% and X-11 with an 80.1% abundance.

These percentages closely match the abundances of the isotopes of the element boron. Boron has two isotopes - boron-10 with a mass of 10.0129 amu and a 19.9% abundance, and boron-11 with a mass of 11.0093 amu and an 80.1% abundance.

An isotope refers to different forms of the same element that contain the same number of protons but different numbers of neutrons. The isotopic abundances on earth can be used to identify elements with particular isotopic compositions, such as in this case.

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Answer:

Explanation:

What is the kinetic energy of the ball as it is half way through the fall?

Answer:

Heat from the engine under the hood transfered to the snow, melting it.

Explanation:

((Study Island))

Molecular mass of Cobalt(II) Bromide  = 218.7412 g/mol .

Explanation:

Percent composition by element:

The procedure to find the Molecular mass of Cobalt(II) Bromide:

The symbol of the Cobalt is Co.

The symbol of the Bromate is Br.

The Element cobalt have the Atomic Mass of 58.933200 with 1 number of atom.

The Element Bromine have the Atomic Mass of 79.904 with 2 number of atoms.

Molecular weight calculation:

To find the molecular mass we have to sum both of the Atomic masses:

For Cobalt(II) Bromide: We have to multiple the Atomic mass of  bromate with 2 and then sum the atomic masses  

[tex]58.9332+79.904 \times 2 =218.7412g/mol[/tex]

Molecular mass of Cobalt(II) Bromide  = 218.7412 g/mol

Answer:

Cathode rays are made up of negatively charged particles.

Atoms contain negatively charged particles.

Explanation:

Answer:

B. Cathode rays are made up of negatively charged particles

C. Atoms contain negatively  charged particles

Explanation:

Edge 2021

Answer:

B. fog

Explanation:

This is because a liquid (water) is dispersed throughout the air (gas)

A colloid has two or more phases, where the dispersed phase is distributed throughout the continuous phase. The example of a colloid is Fog. Option B is correct.

A colloid is a type of homogeneous mixture that is made up of two or more different substances that are uniformly mixed but not chemically bonded.

Colloids can be seen in everyday life with many examples. Let's look at some examples of colloids which are as follows: Examples of colloids.

Fog or Mist: The fog and mist that we see on the earth's surface, especially on a cold winter morning, is an example of a colloid. In this mixture, tiny water droplets are dispersed in the air.

Jelly: When the soluble gelatin protein dissolves in boiling water and cools down, it forms a colloid known as jelly. In this, the continuous phase is water, while the dispersed phase is protein.

Toothpaste: It is also an example of a colloid that is formed by mixing a liquid and solid dispersed in a liquid medium. The dispersed phase is a solid particle (usually chalk) while the continuous phase is a liquid.

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Electrical to chemical energy

Explanation:

If the batteries in a flashlight are rechargeable, the energy conversion that would take place to recharge the battery is from electrical to chemical energy.

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Final answer:

To recharge flashlight batteries, electrical energy from a power source is converted into chemical energy within the batteries, which can later be reconverted into electrical energy to provide power.

Explanation:

To recharge the batteries in a flashlight, the necessary energy conversion involves transforming electrical energy into chemical energy. This is achieved by applying an electric current to the batteries using a charger. The electric current reverses the chemical reactions that took place in the battery during discharge. When the batteries are being used after charging, this stored chemical energy is then converted back into electrical energy to power the flashlight. The processes involved are quite efficient, boasting an efficiency of around 90 percent for each step. Thus, the overall efficiency from electrical to chemical to electrical energy and eventually to mechanical energy (in the case of an electric motor) is over 75 percent.