Answer:
1. K3P.
2. Potassium phosphide
Explanation:
During bonding of K^+1 and P^3-, there will be exchange of ions as follow:
K^+ + P^3- —> K3P
Therefore, the formula for the Ionic compound is K3P and the name of the compound is Potassium phosphide
The formula for this ionic compound K3P. Potassium phosphide.
Thus, The inorganic semiconductor compound potassium phosphide has the formula K3P. It appears as a powder or solid with white crystals.
It reacts violently with water and is poisonous when ingested, inhaled, or absorbed via the skin. Its shape is hexagonal and potassium phosphide.
White crystalline or powdered potassium phosphide is a solid. It might react strongly and catch fire if it comes into contact with water. It is harmful when ingested, inhaled, or absorbed via the skin. It is a component of other compounds.
Thus, The formula for this ionic compound K3P. Potassium phosphide.
Learn more about Potassium phosphide, refer to the link:
https://brainly.com/question/31793066
#SPJ6
what is it called when a nucleus ejects high energy photons
Answer:
Photodisintegration!
Explanation:
also called Phototransmutation, in physics, nuclear reaction in which the absorption of high-energy electromagnetic radiation (a gamma-ray photon) causes the absorbing nucleus to change to another species by ejecting a subatomic particle, such as a proton, neutron, or alpha particle.
What did John Dalton publish?
A The plum-pudding atomic eory
O B. An explanation of the photoelectric effect
O C. An early theory describing properties of atoms
OD. A paper calculating the charge of an electron
Answer:
The answer is C. An early theory describing properties of atoms
John Dalton published an early theory describing properties of atoms, thus the correct option is C.
An atom is defined as the smallest unit of matter that forms an element. Every form of matter whether it is solid,liquid , gas is made up of atoms . Each atom has a nucleus which is comprises of protons and neutrons and shells in which the electrons revolve.
The protons are positively charged and neutrons are neutral species and hence the nucleus is positively charged. The electrons which revolve around the nucleus are negatively charged speciesand hence the atom as a whole is neutral and stable due to presence of oppositely charged particles.The early theory on atom was given by Dalton.
Thus, the correct option is C.
Learn more about atom,here:
https://brainly.com/question/1566330
#SPJ4
Describe a method for making pure crystals of magnesium chloride from magnesium and dilute hydrochloric acid. In your method, you should name the apparatus you will use. (6 mark question)
Answer:
Check Explanation.
Explanation:
Magnesium and dilute hydrochloric acid react with each other to produce Magnesium Chloride and liberate hydrogen gas according to the reaction
Mg (s) + 2HCl (aq) → MgCl₂ (aq) + H₂ (g)
The procedure to obtain pure magnesium chloride from the reaction is as thus
Step 1: Reaction
- Leave the dilute hydrochloric acid in a beaker.
- Add Magnesium slowly until it is in excess or until no more gas seem to be getting liberated.
Step 2: Filtration
- Filter with filter paper and funnel.
- Filter off the excess magnesium as magnesium chloride will be in aqueous form (liquid) and will come out with the filtrate. The residue is the excess magnesium.
Step 3: Crystallization to obtain solid crystals from the filtrate.
- Pour filtrate solution into evaporating dish/basin
- Provide heat using Bunsen burner
- Pour solution into an evaporating basin and heat over a water bath
- Stop heating when crystals start to form
allow water to evaporate until pure crystals remain.
- Dry crystals using absorbent paper or warm oven.
Precautions
- Use personal protective equipment such as gloves, a lab coat and wear eye protection, especially when heating.
- Avoid inhaling unnecessary gases during the whole process.
Hope this Helps!!!
Pure crystals of magnesium chloride using dilute hydrochloric acid can be prepared by using three steps, Reaction, Filtration, and Crystallization.
[tex]\bold {Mg (s) + 2HCl (aq) \rightarrow MgCl_2 (aq) + H_2 (g)}[/tex]
According to the reaction, when Magnesium react with dilute hydrochloric acid, produce Magnesium Chloride and hydrogen gas.
1: Reaction
Put dilute hydrochloric acid in a beaker and add Magnesium slowly until no more gas seem to be produced. .
2: Filtration
Use filter paper and funnel.Since, magnesium chloride is in aqueous form and will come out with the filtrate(solution).3: Crystallization:
Use water bath to evaporate water of filtrate.Turn of the water bath as crystals start forming.Therefore, pure crystals of magnesium chloride using dilute hydrochloric acid can be prepared by using three steps, Reaction, Filtration, and Crystallization.
To know more about Crystallization,
https://brainly.com/question/816377
What is the electron configuration of chlorine (CI)?
1s22s s23p3
1s22s22p 3s 3p5
1s22s22p3s24s23p3
1s22s 23d
Answer:
1s²2s²2p⁶3s²3p⁵
Explanation:
Please see attached picture for working. (Answer using periodic table)
(See 2nd picture)
Alternatively, we can look at the subshell filling sequence.
Chlorine has 17 electrons.
So we start by filling the subshell with the lowest energy level, 1s.
The s subshell can fill a maximum of 2 electrons.
So what we have now is 1s²... with 15 electrons left.
Next, we look at the 2s subshell. Again, it can fill a maximum of 2 electrons.
1s²2s²... and we have 13 electrons left.
Moving on to the 2p subshell. The p subshell has 3 orbitals so it can fill a maximum of 6 electrons.
1s²2s²2p⁶... and we have 7 electrons left.
For the 3s orbital, it can fill another 2 electrons.
1s²2s²2p⁶3s²... 5 electrons to go!
Look at the 3p subshell. It can fill 6 electrons.
1s²2s²2p⁶3s²3p⁵
and we have obtained the electronic configuration of chlorine!
The electronic configuration of chlorine (CI) is 1s² 2s²2p⁶ 3s²3p⁵. None of the option is correct
How to write the electronic configuration of chlorine?Electronic configuration is defined as the arrangement of electrons in the orbital of an atom.
The s, p d, f notation has been the most widely used format in writing the electronic configurations of atoms.
Now, we shall write the electronic configuration of chlorine (CI). Details below:
Element: Chlorine, ClAtomic number = 17Electronic configuration =?Electronic configuration = 1s² 2s²2p⁶ 3s²3p⁵
Thus, the electronic configuration of chlorine is 1s² 2s²2p⁶ 3s²3p⁵. None of the options are correct.
Learn more about electronic configuration:
https://brainly.com/question/31812229
#SPJ6
what are the products in a chemical reaction
Answer:
are species formed by chemical reaction
Explanation:
example when one element react with other new thing which is formed called product
eg. when oxygen react with hydrogen gas we obtain water so water is the product.
Answer:
The products of a chemical reaction are the substances formed from the reaction of two reactants. Basically, they are what is produced from the reaction and are usually written on the right side of the yield arrow in an equation.
Consider the graph. A graph labeled Heating Curve has time as the horizontal axis and Temperature as the vertical axis. A line starts at 0 and rises to 1500 degrees where it levels off briefly; this section of line is labeled solid. The line continues to rise until it levels off at about 2750; this curve is labeled Liquid. After running horizontal for some time, the line rises again; this curve is labeled Gas. Based on the information in the graph, which statement best applies to a gas? Its particles have the highest average kinetic energy. Its particles have the smallest volume of all three states of matter. Its particles are slowing down because of a temperature increase. Its particles are moving apart due to repulsion between them.
Answer:
Its particles have the highest average kinetic energy
Explanation:
This can be explained by the Kinetic Molecular Theory which explains the physical characteristics of solid, liquid, gas and how phases change from one to another.
Kinetic Energy ∝ TemperatureThe theory states the that average kinetic energy of particles is directly proportional to the temperature. When a solid is heated, its temperature and kinetic energy increase, eventually melting it into a liquid. If the temperature is raised even more, kinetic energy will increase even more and the liquid will eventually become a gas. This show that the gas has the highest temperature and hence the highest average kinetic energy compared to solid and liquid.
Answer:
Its particles have the highest average kinetic energy
Explanation:
This can be explained by the Kinetic Molecular Theory which explains the physical characteristics of solid, liquid, gas and how phases change from one to another.
Kinetic Energy ∝ Temperature
The theory states the that average kinetic energy of particles is directly proportional to the temperature. When a solid is heated, its temperature and kinetic energy increase, eventually melting it into a liquid. If the temperature is raised even more, kinetic energy will increase even more and the liquid will eventually become a gas. This show that the gas has the highest temperature and hence the highest average kinetic energy compared to solid and liquid.
The probability that a person has immunity to a particular disease is 0.6. Find the mean number who have
immunity in samples of size 12
Answer:
20
Explanation:
12 divide by 0.6 equal to 20 mean
mechanism with a small activation energy or one with large activation energy
Answer:
Rate depends on the rate constant. The rate constant depends on temperature and activation energy. If you have lower activation energy the rate will be higher. This is why catalysts are added since catalysts provide an alternate pathway that requires lower activation energy and catalysts are added to increase the rate of reaction.
Explanation:
This is only the answer if you were asking:
"Which corresponds to the faster rate: a mechanism with a small activation energy or one with a large activation energy?"
Thats what I understood about your question.
