Explanation:
particles
Answer: particle
Explanation:
The light make small particle of wave
Why is a scientific method important in chemistry?
Answer:
The scientific method attempts to minimize the influence of bias or prejudice in the experimenter. Even the best-intentioned scientists can't escape bias. ... That's the job of the scientific method. It provides an objective, standardized approach to conducting experiments and, in doing so, improves their results.
Explanation:
The Scientific Method is simply a framework for the systematic exploration of patterns in our world. It just so happens that this framework is extremely useful for the examination of chemistry and its many questions.
PLEASE HELP! The density of baby oil is 0.820 g/mL. What is the mass if the volume is 57.1 mL of baby oil.
Answer:
Density=mass / volume.
0.820=mass /57.1.
mass=0.820×57.1
=46.822g.
write the chemical symbols for three different atomic cations with 20 protons
Answer:
The 3 elements that has 3 electrons are:
Li, Be+ and B2+
Explanation:
Hoped that helped :)
PLEASE HELP. Which element does not form a stable ion with the same electronic structure as argon?
A aluminium
B chlorine
C phosphorus
D potassium
the answer is A, but i chose D. i just need to know why is it wrong. thanks!
Explanation:
K+ ion has 18 electrons and Argon also has 18 electrons so they do have the same electronic structure.
However, Al3+ ion has 10 electrons and Argon has 18 electrons, so they do not have the same electronic structure.
5. The density of a substance is 3.4 x 10^3 g/mL. Mixing it with another substance increases the density by 1.5 X 10^1 times. What is the density of the mixture? 6. A compound contains atoms of sulfur and iron. There are 3.6 X 10^20 atoms of iron in the compound. Divide the nu of iron atoms by 1.8 X 10^- 4 to find the number of sulfur atoms in the compound?
Answer:
5. the total density of the mixture = 3.415 x 10^3 g/mL
6. the number of sulfur atoms in the compound = 2 x 10^24
Explanation:
5.
given:
density of a substance is 3.4 x 10^3 g/mL
Mixing it with another substance increases the density by 1.5 x 10^1 times.
find:
What is the density of the mixture?
-------------------------------------------------
let density (a) = 3.4 x 10^3 g/mL
density(b) = 1.5 x 10^1 g/mL
since there is no specific density provided for the mixture, we then add both to increase the density,
total density = density(a) + density(b)
total density = 3.4 x 10^3 g/mL + 1.5 x 10^1 g/mL
total density = 3.415 x 10^3 g/mL
therefore,
the total density of the mixture = 3.415 x 10^3 g/mL
===============================================
6.
given:
A compound contains atoms of sulfur and iron.
There are 3.6 X 10^20 atoms of iron in the compound.
find:
Divide the no of iron atoms by 1.8 X 10^- 4 to find the number of sulfur atoms in the compound?
-------------------------------------------------
iron = 3.6 x 10^20 ⇒ to divide 1.8 X 10^- 4
sulfur atoms = 3.6 x 10^20 = 2 x 10^24
1.8 X 10^- 4
therefore,
the number of sulfur atoms in the compound = 2 x 10^24
===================================================
Answer:
5. the total density of the mixture = 3.415 x 10^3 g/mL
6. the number of sulfur atoms in the compound = 2 x 10^24
Explanation:
i got them correct on exam
Convert 3.99/gallon to dollars per liter
Explanation:
Gas prices in the U.S. are given by the gallon; to convert them to liters, you'll divide the price by the number of liters in a gallon, 3.78541. So if gas costs $3.50 per gallon, you have $3.50 ÷ 3.78541 = $0.92460 per liter, which would typically be rounded to $0.92 per liter.
The label says the rope is 2.15 ft long, John measures the rope as 1.85 ft. What is the percent error?
Answer:
2.15-1.85=0.3.
so therefore.
0.3/2.15×100
=13.953 ~ 14.
What technique(s) can be used to remove one solid from a mixture of solids and how?
Answer:
Explanation: Chromatography involves solvent separation on a solid medium. Distillation takes advantage of differences in boiling points. Evaporation removes a liquid from a solution to leave a solid material. Filtration separates solids of different sizes.
The technique(s) that can be used to remove one solid from a mixture of solids is chromatography.
What is chromatography?On a solid medium, chromatography uses solvent separation. Different boiling points are used in distillation.
A liquid is removed through evaporation from a solution to leave a solid behind. Different-sized particles are divided using filtration. Additionally, it can be employed as a purification method to separate a mixture's constituent parts for use in other operations or studies.
There are four main types of chromatography.
Liquid ChromatographyGas ChromatographyThin-Layer Chromatography Paper Chromatography.Therefore, Chromatography is one or more of the methods that can be used to separate a single solid from a mixture of solids.
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Question 30 (10 points) All unauthorized experiments are prohibited . O True False
Answer:
All unauthorized experiments are prohibited. You are allowed to enter the chemical preparation/storage area any time you need to get an item. Laboratory aprons should be worn during all lab activities. It's okay to pick up broken with our bare hand as long as the glass is placed in the trash.
Explanation:
Select all that apply. Atoms are made up of _____. protons neutrons compounds elements electrons
Answer:
protons, nuetrons, electrons
Explanation:
compounds and electrons are made up of atoms.
Answer:
protons, nuetrons, electrons
Explanation:
A proton has a __________ charge.
a. positive
b negative
c neutral
Question 5 Multiple Choice Worth 4 points)
(01.02 MC)
Two objects of different masses are sitting on different balance scales. Object A has a greater mass than object B. How will the weights of
the objects compare to each other?
The weights of the objects will be the same.
The weight of object A will be less than the weight of object B.
The weight of object A will be greater than the weight of object B.
This cannot be determined without knowing the actual mass of the objects.
Answer:
This cannot be determined without knowing the actual mass of the objects.
Explanation:
its like trying to compare the letter A and letter B
Answer:
Its A i took the test
Explanation:
How many moles of argon, Ar, are in 1.63×1024 Ar atoms?
Answer:
Explanation:
Hello! To begin, remember Avogadro's number, 6.02*10^23 molecules!
You take your number of Ar atoms and divide it by Avogadro's number:
[tex]\frac{1.63 * 10^{24} Ar atoms}{6.02 * 10x^{23} }[/tex] = 2.7076412 moles...
round to 3 sig dig's (based on "1.63")
Final answer = 2.71 moles Ar
What is the density of an object that has a mass of 6.82g and when placed in water displaces the volume from 1.67mL to 7.87mL? Record your answer to the hundreds place.
Answer:
1.10 g/mL
Explanation:
The amount of volume an object displaces is the amount of volume that object takes up.
7.87 - 1.67 = 6.2
The object has a volume of 6.2 mL.
You have the mass (6.82 g) and the volume (6.2 mL). Divide the two value to find the density.
(6.82 g)/(6.2 mL) = 1.10 g/mL
The density of the object is 1.10 g/mL.
What is the difference between sucrose? Table sugar? And Artificial Sweeteners?
SUCROSE IS A NATURALLY OCCURRING SUGAR, COMMONLY KNOWN AS TABLE SUGAR. SUCRALOSE, ON THE OTHER HAND, IS AN ARTIFICIAL SWEETENER, PRODUCED IN A LAB.....
HOPE IT HELP.....☺☺☺
A 0.380 kg sample of aluminum (with a specific heat of 910.0 J/(kg x K)) is heated to 378 K and then placed in 2.40 kg of water that is at 293 K. If the system is left to reach its equilibrium state, what will the equilibrium temperature be? Assume that no thermal energy is lost to the external environment. Use 4.186 J/(g x K) as the specific heat of water.
Answer:
The equilibrium temperature of the system is 276.494 Kelvin.
Explanation:
Let consider the system formed by the sample of aluminium and water as a control mass, in which the sample is cooled and water is heated until thermal equilibrium is reached. The energy process is represented by First Law of Thermodynamics:
[tex]Q_{water} -Q_{sample} = 0[/tex]
[tex]Q_{water} = Q_{sample}[/tex]
Where:
[tex]Q_{water}[/tex] - Heat received by water, measured in joules.
[tex]Q_{sample}[/tex] - Heat released by the sample of aluminium, measured in joules.
Given that no mass is evaporated, the previous expression is expanded to:
[tex]m_{w}\cdot c_{p,w}\cdot (T-T_{w}) = m_{s}\cdot c_{p,s}\cdot (T_{s}-T)[/tex]
Where:
[tex]m_{s}[/tex], [tex]m_{w}[/tex] - Mass of water and the sample of aluminium, measured in kilograms.
[tex]c_{p,s}[/tex], [tex]c_{p,w}[/tex] - Specific heats of the sample of aluminium and water, measured in joules per kilogram-Kelvin.
[tex]T_{s}[/tex], [tex]T_{w}[/tex] - Initial temperatures of the sample of aluminium and water, measured in Kelvin.
[tex]T[/tex] - Temperature which system reaches thermal equilibrium, measured in Kelvin.
The final temperature is now cleared:
[tex](m_{w}\cdot c_{p,w}+m_{s}\cdot c_{p,s})\cdot T = m_{s}\cdot c_{p,s}\cdot T_{s}+m_{w}\cdot c_{p,w}\cdot T_{w}[/tex]
[tex]T = \frac{m_{s}\cdot c_{p,s}\cdot T_{s}+m_{w}\cdot c_{p,w}\cdot T_{w}}{m_{w}\cdot c_{p,w}+m_{s}\cdot c_{p,s}}[/tex]
Given that [tex]m_{s} = 0.380\,kg[/tex], [tex]m_{w} = 2.40\,kg[/tex], [tex]c_{p,s} = 910\,\frac{J}{kg\cdot K}[/tex], [tex]c_{p,w} = 4186\,\frac{J}{kg\cdot K}[/tex], [tex]T_{s} = 378\,K[/tex] and [tex]T_{w} = 273\,K[/tex], the final temperature of the system is:
[tex]T = \frac{(0.380\,kg)\cdot \left(910\,\frac{J}{kg\cdot K} \right)\cdot (378\,K)+(2.40\,kg)\cdot \left(4186\,\frac{J}{kg\cdot K} \right)\cdot (273\,K)}{(2.40\,kg)\cdot \left(4186\,\frac{J}{kg\cdot K} \right)+(0.380\,kg)\cdot \left(910\,\frac{J}{kg\cdot K} \right)}[/tex]
[tex]T = 276.494\,K[/tex]
The equilibrium temperature of the system is 276.494 Kelvin.
Answer:296
Explanation:
I got it right :) and mark me brainlest please
What is generally the best approach when liquid from a large reagent bottle is needed in an experiment
Answer:
See the answer below
Explanation:
The best approach would be to pour the liquid from the large reagent bottle into a small-size beaker or reagent bottle first, before measuring the required quantity out into the reaction vessel. This is necessary in order to maintain safety in the laboratory.
Pouring the liquid directly from the large reagent bottle into the measuring cylinder or directly into the reaction bottle can compromise safety in the laboratory. The liquid might splash out and cause harm to the handler or create other harmful circumstances in the laboratory.
The information regarding the liquid should be explained below;
The following information should be considered;
The best approach should be to pour the liquid from the large reagent bottle into a small-size beaker or reagent bottle first, prior determining the required quantity out into the reaction vessel. This is necessary in order to maintain safety in the laboratory.Learn more: https://brainly.com/question/5566317?referrer=searchResults
A scientist thinks she has discovered a new element. She took some samples to her colleagues and they performed some tests. Here is what they found: the element is a silver, malleable solid at room temperature the element is not very reactive with metals the element has 4 valence electrons the element has 32 protons in its nucleus Which of the discoveries listed above is the most influential in proving her theory incorrect?
Answer:
Proton number of the supposed discovery debunked the theory.
Explanation:
Proton number of an element is also its atomic number.
For the element in question to have had a proton number that wasn't 119, it could not have been a new element.
Furthermore, the characteristics described (proton number especially) describe exactly the Germanium element.
I believe this was helpful.
what are pollen grains? where are
are they formed?
Answer:
Only ask one question
Explanation:
How is using a bow and arrow mechanical and potential energy?
Answer:A bow and arrow possesses mechanical energy. When the arrow is drawn it has potential energy and when it is released it produces a force to propel the arrow towards the aimed target, therefore giving the arrow kinetic energy. When you combine both energies it creates mechanical energy.
Explanation:
Answer:
Building up potential energy when pulling it back
Explanation:
A serving of potato chips contains 2400 mg of sodium. How many significant figures are in the number? Question 3 options: 4 3 2 1
Answer:
2
Explanation:
The last zeros don't count because there is no decimal. So only 2,4 are left over. Counting them gives us 2 digits. So 2.
3. An adult rhino is 1350 kilograms. What is its mass in micrograms? Please write your answer in correct Scientific Notation. Micrograms
Answer:
1.35×10¹² μg
Explanation:
Mass (Kg) = 1350 Kg
Mass (μg) =?
Thus, we can obtain the mass of the adult rhino in micrograms (μg) by converting 1350 Kg to microgram (μg) as follow:
1 Kg = 1×10⁹ μg
Therefore,
1350 Kg = 1350 kg / 1 kg × 1×10⁹ μg
1350 Kg = 1.35×10¹² μg
Therefore, 1350 Kg is equivalent to 1.35×10¹² μg.
Answer:
To convert 1350 kilograms to micrograms, we need to multiply by a conversion factor that takes us from kilograms to micrograms.
1 kilogram = 1,000,000,000 micrograms (by definition)
So,
1350 kilograms = 1350 x 1,000,000,000 micrograms
= 1.35 x 10^12 micrograms (in scientific notation)
Therefore, the mass of an adult rhino is 1.35 x 10^12 micrograms.
elements, compounds and mixtures
Explanation:
10ml = Volume of water
14ml = Volume of water + Volume of marble
Therefore the volume of the marble is 4ml.
The volume of water is 10 ml and the total volume of the cylinder is 14 mi, then the volume of the marble is 4ml.
What is volume ?Volume is a measurement of three-dimensional space that is occupied. It is frequently expressed quantitatively using SI-derived units, as well as several imperial or US-standard units. Volume and the notion of length are connected.
The basic formula for volume is length, breadth, and height, as opposed to length, width, and height for the area of a rectangular shape. The calculation is unaffected by how you refer to the various dimensions; for instance, you can use "depth" instead of "height."
Volume is a unit used to describe how much space a substance takes up. A physical material with mass and space-occupying properties is referred to as matter. The usual measurement of volume in physical sciences like chemistry is in cubic meters (m3).
The volume of water is 10 ml
Volume of water + Volume of marble
=14 ml
Thus, the volume of the marble is 4ml.
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(A)Ch3ch2ch2ch2oh + [o] =?
(B)CH3CH2CH(OH)CH3 + H/heat=?
(C) (CH3)2CH=CH2 + Br2/CCl4 =?
(D) cyclohexane + Br2/peroxide
Answer:
d
Explanation: i think
What mass, in grams, of water would form if 4.8 grams of hydrogen reacted with 38.4 grams of oxygen?
Answer: 4.8 grams of hydrogen is 2.4 moles, and 38.4 grams of oxygen is 1.2 moles. This is exactly the Stoichiometry ratio of the reaction, therefore the two will both completely react giving rise to the same total mass of water.
what does balancing the charges mean when writing an ionic formula
Answer:
Balancing the charges in compound's ionic formula means ensuring that the sum of the charges of the radicals making up the ions is zero that is altogether, there is no net charge of the radicals
Explanation:
The guide to writing an ionic formula is as follows;
The radical with the positive charged ion or cation, is written first and the number of the atom with the charge is written as a subscript followed by the radical with the negatively charged ion, is written and the number of the atom possessing the charge is written as a subscript
The sum charges of the of positive and negative ions must be zero such that must be no net charge of the ions.
Convert the Following
10 hm to cm
Answer:
1x 10⁴ m or 1000 meters
Explanation:
1 hectometer = 100 meters
10 hectometers = 10 x 100 meters = 1000m
or in scientific form = 1 x 10⁴
Cohesion, adhesion, and surface tension are characteristics of water that ________. increase when pH increases increase when temperature increases are a result of hydrogen bonding are a result of polar covalent bonding
Answer:
are a result of hydrogen bonding.
Explanation:
The surface tension is the amount of energy required to stretch or increase the surface of a liquid by a unit area. Liquids that have strong intermolecular forces also have high surface tensions. Thus, because of hydrogen bonding, water has a considerably greater surface tension than most other liquids.
Another example of surface tension is capillary action. A thin film of water adheres to the wall of the glass tube. The surface tension of water causes this film to contract, and as it does, it pulls the water up the tube. Two types of forces bring about capillary action.
One is cohesion, which is the intermolecular attraction between like molecules (in this case, the water molecules). The second force, called adhesion, is an attraction between unlike molecules, such as those in water and in the sides of a glass tube. If adhesion is stronger than cohesion, the contents of the tube will be pulled upward. This process continues until the adhesive force is balanced by the weight of the water in the tube.
This characteristics of water are a consequence of a particularly strong type of intermolecular attraction, called the hydrogen bond, which is a special type of dipole-dipole interaction between the hydrogen atom in a polar bond, such as N-H, O-H, or F-H, and an electronegative O, N, or F atom.
What are the three major subatomic particles?
Answer:
the answer will be protons neutrons and electrons:)
Explanation:
How many milliliters of water will it take to fill a 2 L bottle that already contains 1.87 L of water?
Answer:
0.00013
Explanation:
I'm pretty sure. I first subtracted 1.87 from 2. I got 0.13. The conversion from mL to L is 0.001. I multiplied 0.13 and 0.001 and got 0.00013 mL.