Of the elements fe li te u and he which are considered group b elements
Answers
Answer: Iron is considered as a Group B element.
Explanation:
Mendeleev divided the periodic table into 8 groups, each divided into two sub-groups named as A and B. He arranged the elements according to their atomic masses.
Group A elements are considered as the elements which are present in s-block and p-block.
Group B elements are the transition elements. Transition elements are the elements that belong to d-block.
From the given elements:
Lithium (Group 1-A) and helium (Group VIII-A) are s-block elements.
Tellurium is a p-block (Group VI-A)element.
Uranium is a f-block element.
Iron is the d-block (Group VIII-B)element (transition element)
Hence, iron is considered as a Group B element.
Related Questions
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What is the percent yield of ferrous sulfide if the actual yield is 220.0g and the theoretic yield is 275.6?
Write the symbols for the following isotopes: Its atoms contain 50 electrons and 70 neutrons
B. depolymerization
C. digestion
D. cellular respiration
Answers
Answer: Cellular Respiration
Explanation:
The cellular respiration can be defined as the biological process by which the organism get energy to do work or to perform the various metabolic processes of the body.
The glucose produced by the plants is utilized in the process of cellular respiration where the glucose is broken down in pressence of oxygen to provide energy for various body functions.
The correct answer would be the letter D, Cellular respiration.
Cellular respiration allows the production of ATP through the breakdown of glucose assisted by oxygen. We talk about aerobic metabolism. This metabolism is to oppose the fermentation which is done without oxygen (anaerobic) and that we detail in another file. Cellular respiration is divided into two phases, one cytoplasmic and the other mitochondrial.
Answers
Answer:
Molarity of HCl = 0.3333M
Explanation:
Given:
Volume of HCl = 15.00 ml
Volume of NaOH = 25.00 ml
Molarity of NaOH = 0.2000 M
To determine:
Molarity of HCl
Explanation:
The titration reaction is:
Based on the reaction stoichiometry:
1 mole of HCl reacts with 1 mole of NaOH to form 1 mole of NaCl and water.
Therefore the molar ratio of HCl:NaOH = 1:1
Moles of NaOH consumed = Moles of HCl present = 0.005 moles
HCl+NaOH -> NaCl + H2O
1:1 ratio
M1=Molarity of HCl = X
V1 = Volume of HCl = 15mL = 0.015L
M2 = Molarity of NaOH = 0.2M
V2 = Volume of NaOh = 25mL = 0.025L
(XM)(0.015L)=(0.2M)(0.025L)
Isolate unknown:
(XM)=[(0.2M)(0.025L)/(0.015L)]
XM=0.33M
Hence, Molarity of HCl is = 0.33 Moles
Answers
C6H6 + 9/2O2 = 6CO + 3H2O
We are given the amount of benzene to be used for the reaction. This will be the starting point for the calculations.
23.1 g C6H6 ( 1 mol C6H6 / 78.12 g C6H6 ) ( 6 mol CO / 1 mol C6H6 ) = 1.77 mol CO is produced from the reaction
Answers
In a chemical change, the molecules in the reactants interact to form new substances. In a physical change, like a state change or dissolving, no new substance is formed.
hope this helped
Final answer:
Molecules move to the location of a chemical change due to the process of diffusion. In this physical phenomenon, molecules move from an area of high concentration to an area of lower concentration. This diffusion leads to interaction between reactant molecules causing the chemical change.
Explanation:
The movement of molecules to the location of a chemical change is a fundamental concept in Chemistry. In a chemical reaction, molecules move due to a physical phenomenon known as diffusion. Diffusion is the process by which molecules of a substance move from an area of high concentration to an area of lower concentration. For example, if you open a perfume bottle at one end of a room, eventually the perfume molecules will spread throughout the room. These perfume molecules move to areas of lower concentration via diffusion. In the context of a chemical reaction, the reactant molecules diffuse to interact with each other, leading to the chemical change or reaction.
Learn more about Diffusion here:
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Answers
Since the subscript shows that there are 3 sulfurs within the substance, the total mass of sulfur is 96.21g/mol
Now take the mass of the sulfur and divide it by the molar mass of aluminum sulfate, then multiply by 100:
(96.21/342.15)(100) = 28.1% mass composition of sulfate
B. Electron
C. Proton
D. Quark
Answers
Answer: electrons
Explanation:
because it is