James Hutton:

developed the concept of plate tectonics
based his theories on the Neptunist view of crust formation
developed the theories of erosion and deposition
was the founder of the Plutonist theory of crust formation

Answer is: CH₄ (methane).

The lighter (smaller) particles move more quickly than heavier (larger) ones at the same temperature.

Methane has smallest molecular mass in this example.

M(CH₄) = 16 g/mol; molecular mass of methane.

M(O₂) = 32 g/mol; molecular mass of oxygen gas.

M(CO₂) = 44 g/mol; molecular mass of carbon(IV) oxide.

M(Cl₂) = 71 g/mol, molecular mass of chlorine gas.

A chemical spill can disrupt nutrient cycles by causing nutrient overload in soils, leading to eutrophication in nearby water bodies, which depletes oxygen and harms aquatic life. The use of artificial fertilizers contributes to this issue, upsetting delicate ecosystem balances and creating long-term ecological consequences.

A chemical spill can significantly affect nutrient cycles in soil, with various negative environmental impacts. Chemicals such as those from fertilizers lead to increased levels of nitrogen and phosphorus, which can cause eutrophication in water bodies. Eutrophication is characterized by excessive algae growth that depletes oxygen, affecting aquatic life and disrupting the balance of ecosystems. Moreover, a chemical spill may also increase soil acidity or alkalinity, altering the soil's ability to hold and cycle nutrients like nitrogen, phosphorus, and sulfur, which are vital for plant growth. In some cases, chemicals may leach nutrients away from soil, diminishing the soil's fertility and impacting plant life.

Human activities including the use of artificial fertilizers exacerbate these effects. Runoff from these fertilizers adds to the nutrient load in water bodies, triggering algal blooms, causing oxygen depletion, and creating dead zones where aquatic life cannot survive. The aftermath of such spills affects not only plants but also the animals that depend on those plants, thereby altering the entire ecosystem.

Nutrient pollution due to overuse of fertilizers in agriculture and residential settings significantly upsets aquatic ecosystems. The runoff contributes to the accumulation of harmful toxins which can affect human health and lead to extensive ecological damage that may take decades to reverse.

A chemical spill can disrupt nutrient cycles in soil by causing excess nutrients like phosphorus to leach away and by promoting eutrophication due to nitrogen-rich compounds. This imbalance can degrade soil health, harm aquatic ecosystems, and contribute to broader environmental issues such as global warming and acid rain.

A chemical spill can greatly affect the nutrient cycles in soil. These cycles are integral to maintaining the balance of elements like nitrogen and phosphorus. A spill can lead to an excess of certain nutrients, which may alter soil chemistry. For example, a chemical spill containing phosphorus can increase its chemical mobility, making it prone to leaching and resulting in a decline in stored nutrients vital for plant growth. On the other hand, nitrogen-rich compounds from artificial fertilizers, if spilled, can cause excessive eutrophication, creating algae overgrowth and depleting oxygen in nearby water bodies, thus jeopardizing aquatic life. Additionally, altered nitrogen cycles due to human activity such as fossil fuels combustion and the use of artificial fertilizers contribute to various ecological disturbances, including global warming and acid rain. Ongoing eutrophication can have serious long-term consequences, such as dead zones in oceans and can disrupt the natural nitrogen fixation process essential for plant and soil health.

Answer:

the answer is the transfer of energy

Answer:

D. Solids have a fixed mass, volume, and shape

Explanation:

solid have fixed volume, mass and shape due to this they are closely packed.

The molecules in the solid stay in fixed points and they are tight together.

Dalton explained that all the elements are made up of atoms.

Plasmas contain both positive ions and negative charges in equal quantity.

The number of protons in an element is always equal to the number of electrons.

Thus option(D)  Solids have a fixed mass, volume, and shape is the correct answer.

When a liquid loses sufficient energy, it changes its state from liquid to solid, a process called freezing. The particles in the liquid slow down and form fixed positions, becoming a solid. The temperature remains constant during this phase change until the entire substance has transformed.

When a liquid releases enough energy, it undergoes a phase transition or change of state from liquid to solid, typically known as freezing. This process occurs as the particles in the liquid lose energy and slow down, enabling them to form fixed positions and turn into a solid substance. This is quite evident in water; when it cools sufficiently and loses enough thermal energy, it becomes ice.

In phase transitions, it's important to note that the temperature of a substance remains constant until the phase change is complete. For instance, the temperature of water stays at 0 degrees Celsius (32 degrees Fahrenheit) when freezing, despite losing energy, until all the water has turned into ice.

https://brainly.com/question/24645336

#SPJ6

Metals are elements that conduct electricity and heat, have a shiny appearance, and are malleable and ductile. They often have high melting points and densities and are mostly solid at room temperature, except mercury. The production of metals has a significant environmental impact, but alloys made from metals serve in diverse applications with enhanced properties.

Metals are elements known for their ability to conduct heat and electricity. They also have a metallic lustre (shine), are malleable (can be hammered into thin sheets), and ductile (can be drawn into wires). With high melting points and densities, metals are predominantly solid at room temperature, except for mercury (Hg), which is a liquid. In the periodic table, metals represent about 80 percent of all elements.

When considering the extraction of metals from their ores, it's important to identify the specific metal and its main ores as well as the process used to extract the metal, which often involves smelting or electrolysis. For example, aluminum is extracted from the ore bauxite through the Bayer process and electrolysis.

The environmental impact of metal production is significant, including issues like resource depletion, energy consumption, and pollution. Responsible sourcing and recycling of metals are essential to mitigate these impacts.

Different metals have different uses based on their properties. For example, iron, which is strong and malleable, is used in construction. Alloys, like steel (an alloy of iron and carbon), often exhibit enhanced properties such as increased strength or resistance to corrosion, making them useful in a wide range of applications.

The answer is absolute time.

Answer: Health Occupations Students Of America

Explanation:

Answer : The correct option is, (A) ionic bonds

Explanation:

Ionic bond : It is defined as the bond that is formed by complete transfer of electrons from one atom to another atom.

That means, the atom which looses the electron is known as electropositive atom and the atom which gains the electron is known as electronegative atom.

The ionic bond is usually formed between a metal and a non-metal.

Covalent bond : It is defined as the bond which is formed when sharing of electrons takes place between the atoms.

This is usually formed between two non-metals.

When a transition metal reacts with chlorine then they form ionic bond because transitions metals are metal and chlorine is a non-metal. So, transition metal and chlorine will form an ionic bond.

Hence, the correct option is, (A) ionic bonds

The answer is: B. alloy.

The best choise in using low force (100 N, 200 N, 300 N) to move the ball is alloy, because it has the greatest distance (25 m, 30 m, 80 m).

One newton is the force needed to accelerate one kilogram of mass (in this example bat) at the rate of one metre per second squared in direction of the applied force.

Newton's second law of motion: F = m · a.

F -  force applied.

m - mass of the object receiving the force.

a - the acceleration of the object.

Answer:

the answer on your test will be.

The rock formed in a fast-moving stream.

The choices are:

Carbonate

ore

silicate

a mineral

The correct option is:

ore
Explanation:

An ore is an experience of rock or sediment that comprises sufficient minerals with economically valuable elements, typically metals, that can be economically derived from the deposit. The ores are obtained from the earth through mining; they are then polished (often via smelting) to extract the important element or elements.A metal is a material (an element, compound, or alloy) that is typically hard, opaque, shiny, and has good electrical and thermal conductivity.

Answer:

ore

Explanation:

cuz

Answer:

The velocity of the bowling should be 2 m/s in order to an have same momentum as that of basket ball.

Explanation:

Momentum is defined as motion possessed by the moving object.it is calculated by multiplying mass of the object with its velocity.

[tex]Momentum(P)=mass(m)\times Velocity(v)[/tex]

Mass of basket ball = m = 1 kg

Velocity of the basket ball,v = 12 m/s

Momentum of the basket ball = p

p = 1 kg × 12 m/s = 12 kg m/s

Mass of bowling ball = m' = 6 kg

Velocity of the bowling ball = v'

Momentum of the bowling ball = Momentum of the basket ball = p

p = m' × v'

12 kg m/s = 6 kg × v'

v ' = [tex]\frac{12kg m/s}{6 kg}= 2 m/s[/tex]

The velocity of the bowling should be 2 m/s in order to an have same momentum as that of basket ball.

Answer:

mole

Explanation:

just cause

The Earth is situated in the Milky Way galaxy, specifically in the Solar System within the Orion Arm. It holds the position as the third planet closest to the Sun in our Solar System.

The Earth is located within a galaxy known as the Milky Way, a system comprising billions of stars, numerous planets, and a variety of other celestial bodies. Specifically, Earth is positioned in a small subsection called the Solar System, which is located in what is known as the Orion Arm. The Solar System is characterized by its central sun and surrounding planets, of which Earth is the third nearest to the Sun. However, it should be noted that in the grand scale of the universe, our position is relatively insignificant, as the Milky Way is just one of billions of galaxies spread across an incomprehensibly vast expanse of space.

https://brainly.com/question/33961749

#SPJ2

Answer:

The grains from smallest to the largest are as follows-

(1) Clay (Diameter, D< 0.004 mm in diameter)

(2) Silt (D= 0.004 to 0.0625 mm)

(3) Sand (D= 0.0625-2 mm)

(4) Gravel (D= 2-4 mm)

(5) Pebble (D= 4-256 mm)

(6) Cobble (D= 64-256 mm)

(7) Boulder (D> 256 mm)

These sediments are weathered from the source rock and are transported from the source area to a different place and then they are compacted and lithified as a result of which detrital (clastic) sedimentary rocks are formed. For example, sandstone, siltstone, sandstone, conglomerate and breccia.

The reason ice cream melt on a hot day and the type of thermal energy transfer is "the absorbent of heat around it and exothermic thermal energy.

Exothermic thermal energy is the type of thermal energy that makes an ice cream melt on a hot day.

Ice cream melts because it absorbs the energy around it in the form of heat or thermal energy. This extra energy causes the atoms to vibrate, turning the solid into a liquid. The exact melting point of ice cream depends on what is added to the ice cream base.

Read more on Thermal Energy:

https://brainly.com/question/7541718