In what way is the planet Uranus unique
A substance with a hardness of 8 will scratch a substance with a hardness of 7.
Answer:
- Hardness
Hardness is a mineral’s ability to resist being scratched. Minerals that are not easily scratched are hard. You test the hardness of a mineral by scratching its surface with a mineral of a known hardness. Mineralogists use the Mohs Hardness Scale, shown in Table below, as a reference for mineral hardness. The scale lists common minerals in order of their relative hardness. You can use the minerals in the scale to test the hardness of an unknown mineral.
Mohs Hardness Scale
As you can see, diamond is a 10 on the Mohs Hardness Scale. Diamond is the hardest mineral; no other mineral can scratch a diamond. Quartz is a 7. It can be scratched by topaz, corundum, and diamond. Quartz will scratch minerals that have a lower number on the scale. Fluorite is one. Suppose you had a piece of pure gold. You find that calcite scratches the gold. Gypsum does not. Gypsum has a hardness of 2 and calcite is a 3. That means the hardness of gold is between gypsum and calcite. So the hardness of gold is about 2.5 on the scale. A hardness of 2.5 means that gold is a relatively soft mineral. It is only about as hard as your fingernail.
Mohs Scale
Hardness Mineral
1 Talc
2 Gypsum
3 Calcite
4 Fluorite
5 Apatite
6 Orthoclase feldspar
7 Quartz
8 Topaz
9 Corundum
10 Diamond
sorry im so late -_-ll
Which motion is the best model to use to illustrate passive transport?
Going over a hill
Going around a carousel
Going down a slide
Going through a tunnel
Answer: going down a slide.
Justification:
The term passive transport is used to the describe the movement of particles in circumsantaces that do not require the use of energy.
It is mainly used for some physical process related to particles like diffusion or osmosis.
For illustrative purposes. it is compared with the movment of an object down a hill (or a slide as in the case of this question) as the object will go from high to low without requiring the use of energy.
Can you please answer 12 and 13 thanks
You observe heat, light, and sound released by a chemical reaction. This reaction is (2 points)
absorbing energy
consuming energy
exothermic
endothermic
HELP PLEASE What is chemical equation
A.substance present after a reaction
B.reaction in which substances combine to form a more complex compoud
C.principle that states that matter if not created of destroyed during a chemical rection
D. reaction in which one element replaces another in a compoud
E.substance present before a reaction
F.number telling how many molecules of a substance are involved in a chemical reaction
G.reaction in which compounds are broken down into simpler substances
H.uses symbols and formulas to show chemical reactions.
PLEASE HELP ME
Tyler found his iguana playing with a soccer ball in the basement that contained 400kPa of pressure, held 3L and was at 300K. Devin took the ball in the garage where the pressure in the ball became 350kPa and the temperature was 250K. How much space did the ball take up? Question 14 options:
1. 2.9 L
2. 2.0 L
3. 2.8 L
4. 2.5 L
5. 2.7 L
The escape velocity required for gas molecules to overcome the Earth’s gravity and go off to outer space is 1.12 x 103 m/s at 15oC. Calculate the molar mass of a species with that velocity. Would you expect to find He and H2 molecules in the Earth’s atmosphere? How about argon atoms?
PLEASE HELP ME!!!!!
The tires on Adrian's classic corvette tires are at 120kPa and 27L of air after going to California. Before he started, the tires had 20L of air. Choose the correct statement.
Question 6 options:
The original pressure must be more than 120kPa because when P increases, V decreases.
The original pressure must be less than 120kPa because when P increases, V decreases.
The original pressure must be more than 120kPa because when P increases, V increases.
The original pressure must be less than 120kPa because when P increases, V increases
According to Boyle's law:
Pressure of given mass of ideal gas is inversely proportional to its volume at a constant temperature.
That can be represented as:
PV=Constant
Where P represents pressure, V represents volume.
Here as the volume increases that is from 20 L to 27 L, So pressure must decreases, so the original pressure must be greater than 120 kPa.
So the answer is "The original pressure must be more than 120kPa because when P increases, V decreases".
Please I need help with questions 1-4 and
Question 1: Explain why scientists named the new pigment YInMn?
Question 2: How do we get pigments that are used to color materials like paint and plastics
Question 3: Do pigments of the same color have all of the same properties?
Question 4: What are two characteristics of YInMn that make it more advantageous to use than cobalt blue? Explain why these characteristic are important?
And it’s very hard and I’m struggling with it and if you need to see the picture big then click on it and it will be big
1. Scientist named the new pigment YInMn because it contains yttrium, indium and manganese elements. The symbol for yttrium is Y, indium is In and that for manganese is Mn thus, to reflect the chemical composition of pigment it is named YInMn.
2. The pigment that is used in coloring materials like paint and plastics was discovered accidently by scientists in an experiment due to mixing and heating of chemicals while manufacturing electronics. An intense blue colored compound results due to chemical combination of two or more elements.
3. No, pigments with same color do not have all the same properties. YInMn blue and cobalt blue, both are same in color, but they have different manufacturing process and YInMn is more durable than cobalt because it gets fade over time.
4. The two characteristics of YInMn are good pigment and use of nontoxic ingredients in manufacturing. It is difficult to find the blue pigments in nature, it is also difficult to manufacture them therefore, the mentioned characteristics are important.
In swimming, you apply a force to the water to move yourself forward. The greater the water pressure, the faster you can swim. This can best be explained by one of newton's laws of motion that states A) for every force on an object that object exerts an equal and opposite force back. B) a body in motion will continue in motion unless acted upon by an outside force. C) the net force equals the mass times the acceleration of and object. D) energy cannot be created or destroyed on changed forms.
In swimming, you apply a force to the water to move yourself forward. This can best be explained by one of newton's laws of motion that states for every force on an object that object exerts an equal and opposite force back. Thus option A is correct.
What is Newton's law of motion?Newtons law of motion is three fundamental laws of classical mechanics that describe the relationship between an object's motion and the forces acting on it.
The three basic laws can be expressed as
Unless acted upon by a force, a body remains at rest or in motion at a constant speed in a straight line.When a body is acted upon by a force, its momentum's time rate of change equals the force.When two bodies exert forces on each other, the magnitude of the forces is the same but the directions are opposite.Thus, in swimming, you apply a force to the water to move yourself forward. This can best be explained by one of newton's laws of motion that states for every force on an object that object exerts an equal and opposite force back. Thus option A is correct.
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wat energy transformation occurs as the chicken cooks ?
The energy transformation that occurs as chicken cooks is a conversion of chemical energy from the heat source into thermal energy, which cooks the chicken. Not all of the energy converts to thermal energy for cooking, as some is lost to the environment.
Explanation:Energy Transformation in Cooking ChickenAs chicken cooks, there is an important transformation of energy that occurs. The heat from the stove is transferred to the pot and the chicken itself. This process is an example of thermal energy transfer. Specifically, chemical energy from the heat source (like gas or electricity) is converted into thermal energy, which is then absorbed by the chicken, causing the temperature of the chicken to rise and cook through.
In the kitchen, this conversion of energy type is critical in cooking all types of food, not just chicken. The energy transfer process ensures that the food changes from a raw state to a cooked state by the increased thermal energy breaking down proteins and killing bacteria, making the chicken safe to eat and more digestible.
It's important to note that during this energy transformation, not all energy is directly converted into thermal energy for cooking; some of it is lost to the environment. This demonstrates the concept of energy efficiency and that not all systems are 100% efficient.
The energy transformation happening as the chicken cooks is the conversion of electrical or chemical energy into thermal energy, which then cooks the chicken by denaturing its proteins.
Explanation:The energy transformation that occurs as the chicken cooks involves converting electrical energy (if using an electric stove) or chemical energy (if using a gas stove) into thermal energy. This thermal energy is then transferred from the heat source to the chicken. As the heat is applied, the thermal energy cooks the chicken by breaking down its proteins and fats, causing a physical and chemical change in the chicken's structure. This transfer and transformation of energy are part of why the cooking process takes place.
To be more precise, when you turn on your stove, electrical energy or the chemical energy from natural gas is transformed into heat energy by the stove's heating element or burner. Then, as you place the chicken on the stove, energy is transferred as heat from the hot stove element to the cooler pot or pan, and eventually to the chicken itself. The heat cooks the chicken through processes such as denaturation of proteins, which alters the texture and flavor of the meat.
How can we find the volume of this fish tank? Please I needed but Good
Answer:
The correct answer is find the number of 1 foot cubes that fill the fish tanks.
Explanation:
Volume is defined as amount of space occupied by an object.
Number of 1 foot cubes lying on the length of fish tank ,l= 5 feet
Number of 1 foot cubes lying on the width of fish tank,w = 3 feet
Number of 1 foot cubes lying on the height of fish tank ,h= 3 feet
Volume of the cuboid fish tank will be :
The volume of fish tanks id 45 cubic feet.
Explanation:
To find the fish tank's volume, multiply its length, width, and height, represented by: Volume = Length × Width × Height, which is 5 multiplied by 3 multiplied by 3, which yields 45 cubic feet.
To determine the volume of the fish tank, envision it as a rectangular prism and determine the dimensions based on the arrangement of 1-foot cubes. The length, width, and height are given as 5 cubes, 3 cubes, and 3 cubes, respectively. By multiplying these dimensions, you calculate the total volume of the tank.
Each dimension represents the number of cubes stacked along that axis, illustrating how they fill the three-dimensional space. This multiplication reflects the total number of cubic feet the tank can contain. Once multiplied, the result represents the volume of the fish tank, providing insight into its capacity in cubic feet.
Which BEST explains why people see carrots as orange?
A) The carrots reflect only orange light.
B) The carrots absorb orange light from the Sun.
C) Orange light changes direction when it hits the carrots.
D) The carrots are opaque and do not allow orange light through.
Answer:
Option A
Explanation:
Carrots are composed by a large proportion of carotenoids. These are pigments that can absorb most of the light spectrum, peaking between 450-550nm, and falling at the yellow-orange range which is around 600nm and above. Therefore, the yellow-orange light that is not absorbed reflects towards our eyes.
Which material is the most dense?
Which of the following solution is more dilute and explain why?a)1M b)2M c)0.1M or d)0.009M
The correct answer is option D, 0.009M
Concentration is defined as the amount of solute in a solution.
Noting the following points about concentration is helpful;
The more the amount of solute present in a solution, the more concentrated the solution is. The lesser the amount of solute present in the solution, the lower the concentration of the solution.A high numerical value of concentration indicates that there is a higher amount of solute in the solution while a lower value of concentration indicates that there is a lesser amount of solute in the solution.
Hence, a solution with lesser concentration is said to be dilute. If the solution has a concentration of 0.009M, then it is a dilute solution.
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is H2CO3 and Na2CO3 a buffer
Answer:
No
Explanation:
A buffer solution is a combination of a weak acid and its conjugate base; for instance, carbonic acid (H2CO3) and sodium bicarbonate (NaHCO3), not sodium carbonate (Na2CO3). Buffer solutions are used as a means of keeping pH at a nearly constant value in a wide variety of chemical applications.
Which of the following occurs when an electron moves from a higher energy shell to a lower energy shell?
A. A neutron is always lost.
B. A proton is always gained.
C. Energy is released in the form of radiation.
D. The electron must be transferred to another atom.
Answer: Option (C) is the correct answer.
Explanation:
When energy is supplied to an electron then on absorption of energy it tends to move from a lower energy level to higher energy level.
And, when this electron moves from higher energy level to lower energy level then excess of energy absorbed by it is released in the form of visible light or radiation.
This emission of energy is also responsible for imparting color to a compound.
Thus, we can conclude that energy is released in the form of radiation occurs when an electron moves from a higher energy shell to a lower energy shell.
Organisms can pass on genetic information through asexual or sexualreproduction.Which if the following statements best describes how asexual reproduction differs sexual reproduction
Asexual reproduction involves one parent and produces genetically identical offspring, while sexual reproduction involves the combination of genetic material from two parents to produce genetically varied offspring. Asexual reproduction allows many offspring to be produced quickly, whereas sexual reproduction provides genetic diversity, potentially increasing offspring survival rates in changing environments.
Explanation:The main difference between asexual and sexual reproduction lies in the biological processes and resulting offspring. Asexual reproduction involves one parent and produces offspring that are genetically identical to that parent, while in sexual reproduction, genetic material from two parents combine to create offspring with genetic variation. Asexual reproduction methods include fission, budding, and fragmentation, making it possible for a single individual to quickly produce a large quantity of offspring that are ideally adapted to a stable environment.
In contrast, sexual reproduction creates a greater genetic diversity in offspring, providing them a higher chance of survival in changing or unpredictable environments. It typically includes processes such as internal or external fertilization of the female's eggs by the male's sperm. However, species that reproduce sexually need to maintain two types of individuals, males and females, which could be a disadvantage compared to asexual reproduction, especially when considered in terms of population growth and colonization of new habitats.
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helpppp me plzz....
What evidence is there that energy is conserved?
Which statement correctly describes what happens when water turns to steam in terms of energy?
A. the water absorbs energy which causes chemical bonds to break, changing water to steam.
B. the water releases energy which causes chimical bonds to break, changing water to steam.
C. the water absorbs energy which causes the water molecules to have more kinetic and potential energy, changing their configuration from a liquid to a gas. D. the water absorbs energy which causes the water molecules to have less kinetic and potential energy, changing their configuration from a liquid to a gas.
what characteristic of carbon atoms helps to explain the wide variety of organic compounds ???
How many unpaired electrons does niobium have
Final answer:
Niobium has five unpaired electrons, with one electron from the 5s orbital and four electrons from the 4d orbitals, following Hund's rule.
Explanation:
The student asked about the number of unpaired electrons in niobium. Niobium (Nb) has the atomic number 41, which means its electron configuration is [Kr]4d45s1. In the niobium atom, there are five electrons in its outermost d and s orbitals, out of which one can be found in the 5s orbital and four in the 4d orbitals. According to Hund's rule, which states that every orbital in a subshell is singly occupied before any orbital is doubly occupied and all electrons in singly occupied orbitals have the same spin, we can expect at least one unpaired electron in niobium due to its electron configuration.
To determine the exact number of unpaired electrons, we need to look more closely: the single electron in the 5s orbital is unpaired, and within the 4d subshell, which can hold up to 10 electrons, there are four electrons. These will occupy the first four orbitals singly before pairing up, resulting in four unpaired electrons from the 4d subshell. Therefore, niobium has a total of five unpaired electrons, one from the 5s orbital and four from the 4d orbitals.
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For the balanced equation shown below, how many moles of O2 will react with 0.3020 moles of CO2?
2C2 H5 OH + 6O2 → 4CO2 + 6H2O
Question options:
0.151 moles O2
0.201 moles O2
0.302 moles O2
0.453 moles O2
Can you please answer number 8 thanks
Which are the products in this chemical reaction? 2C4H10 + 13O2 8CO2 + 10H2O
In the chemical reaction; 2C₄H₁₀ + 13O₂ → 8CO₂ + 10H₂O. The products of the reaction are; 8 molecules of carbon dioxide (CO₂), and 10 molecules of water (H₂O)
This chemical equation represents the combustion of butane (C₄H₁₀) with oxygen (O₂). Combustion is a type of chemical reaction where a substance reacts rapidly with oxygen, releasing energy in the form of heat and light. In the given equation, two molecules of butane (C₄H₁₀) react with 13 molecules of oxygen (O₂).
Breaking down the reaction:
On the left side (reactants):
2 molecules of butane (C₄H₁₀): C₄H₁₀ +C₄H₁₀
13 molecules of oxygen (O₂): 13O₂
On the right side (products):
8 molecules of carbon dioxide (CO₂): 8CO₂
10 molecules of water (H₂O): 10H₂O
The balanced chemical equation indicates that for every 2 molecules of butane reacting, it requires 13 molecules of oxygen. After the reaction, 8 molecules of carbon dioxide and 10 molecules of water are produced as products.
This balanced equation demonstrates the conservation of mass. The total number of atoms of each element on the left side of the arrow (reactants) is equal to the total number of atoms of each element on the right side of the arrow (products). This is a fundamental principle in chemical reactions, ensuring that matter is neither created nor destroyed, only rearranged to form new substances.
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Number 10 plz :D tysm!!!
Which statement correctly describes the conservation of matter in a chemical reaction?
A. Different types of atoms may form during the change, but the total mass remains constant.
B. The number of molecules is conserved, so the total mass does not change.
C. Different numbers of atoms may form during the change, but the total mass is unchanged.
D. Atoms of each element are conserved, so the total mass does not change
Considering the definition of the Law of Conservation of Matter, the correct answer is option D. Atoms of each element are conserved, so the total mass does not change.
The Law of Conservation of Matter is also called the law of conservation of mass or the Law of Lomonósov-Lavoisier. This law postulates that "the mass is not created or destroyed, only transformed."
This means that the reagents interact with each other and form new products with physical and chemical properties different from those of the reagents because the atoms of the substances are ordered differently. But the amount of matter or mass before and after a transformation (chemical reaction) is always the same, that is, the quantities of the masses involved in a given reaction must be constant at all times, not changing in their proportions when the reaction ends.
In other words, then the mass before the chemical reaction is equal to the mass after the reaction. The exception to the rule is nuclear reactions, in which it is possible to convert mass into energy and vice versa.
Taking into account the above, the correct answer is option D. Atoms of each element are conserved, so the total mass does not change.
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