What element forms a compound with chlorine with the general formula MCl?

Answers

Answer 1

Answer: Rb forms a c ok compound with the general formula MCI.

Answer 2

Answer: Rubidium forms a compound with chlorine and has the general formula MCl

Related Questions

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Which pair of atoms can form an ionic bond?* Na, K (Sodium, Potassium)* K, F (Potassium, Fluorine)* F, Cl (Fluorine, Chlorine)* Na, Ne (Sodium, Neon)
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1. What is the charge of an oxide ion?
O
2+
3+
2-
оо
3-

Answers

Answer:

Explanation:

An oxide ion is diatomic

During which process is water produced?a. alcohol fermentation
b. acetyl CoA formation
c. electron transport chain
d. citric acid cycle

Answers

The answer is C. It is the electron transport chain reaction that produces water as one of it product. This type of reaction is the final and essential step in cell respiration. It's main function is to produce ATP but another product is also produced which is water.

Answer:

The answer to this problem is c

Explanation:

If a person looking at a poster sees green instead of yellow and doesn't see red at all, this person most likely has color blindness where _______ nerves fail to respond to light properly.

Answers

Answer:

The correct answer is red-sensitive nerves.

Explanation:

The individuals with protanopia do not possess the tendency to sense red light, the individuals with tritanopia do not sense blue light, and the individuals with deuteranopia do not sense green light. If an individual is perceiving green color then in that case, the yellow sensitive nerves must function somewhat efficiently as green is an amalgamation of blue and yellow. Thus, the red-sensitive nerves would not be reacting appropriately for this individual.

Umm that's 'cones' a being has rods and cones to distinguish between colors and dark / black light . one would use cones for colored light or colors and rods when its dark .

How many phases does a solution have?explain

Answers

Did you perhaps mean the phase of matter?If so, then a solution has only one phase of matter: liquid. It is always almost always liquid because solutions are made up of a solvent and a solute and a solvent is always a liquid. Though, some may come in an emulsion form, but still it can be considered as liquid

Final answer:

A solution can exist in three phases: solid, liquid and gas, depending on the temperature and pressure. The pH of the solution can also change based on the nature of ions present in it. Understanding the nature and properties of solutions is crucial for many chemical reaction processes.

Explanation:

A solution can exist in three phases depending on the temperature and pressure, which are: gas, liquid, and solid. These are depicted in a phase diagram (an illustrative depiction that shows the states of a substance under different conditions of temperature and pressure).Consider the phase diagrams for a pure solvent and a solution. When a nonvolatile solute is dissolved in a solvent, a solution is formed. These states coexist and are in a state of thermal equilibrium at specific combinations of pressures and temperatures.

In addition to the physical phase, the pH of the solution can also be considered as a 'phase.' The pH can decrease, increase, or even show a pattern of increase and then decrease depending on the nature of ions present in the solution.

Solutions are crucial to life-sustaining processes as well as other chemical reaction processes. It's important to know the nature of solutions and factors determining its formation and properties for understanding various biological, geological and industrial processes.

Learn more about Solution Phases here:

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Which statement correctly describes the relationship between reactant and yield? The actual yield is calculated from the amount of the excess reactant present.The actual yield is calculated from the amount of the limiting reactant present.

The theoretical yield is calculated from the amount of the excess reactant present.

The theoretical yield is calculated from the amount of the limiting reactant present.

Answers

Answer: the fourth stament, The theoretical yield is calculated from the amount of the limiting reactant present.

Justification:

1) Limiting reactant is the one that is in less proportion than the theoretical mole ratio.

2) Excess reactant is the one that is in greater proportion than the theoretical ratio.

3) For example, if you have the equation A + 2B → C, means that 1 mol of A react with 2 moles of B to yield 1 mol of C.

As per that equation, the theoretical mole ratio is 1 mol of A : 2 moles of B : 1 moles of C.

If the actual amounts of A and B were 2 and 4, respectively, they were in the same ratio as the theoretical ratio, and all of the both reactants could react.

But if you had, for example, 2 moles of reactant A and 2 moles of reactant B, only one of the moles of A could react with the 2 moles of B, so B would be the limiting reactant: the whole 2 moles of B would react, while only 1 mole of A would reactant, and 1 mole of A would be left over (A is in excess).

Therefore, you cannot use the 2 moles of A to calculate the theoretical yield (since only 1 mole reacted), instead you must use the limiting reactant (B), which is the one that reacts completely.

How many total atoms are in 3(SO)4

Answers

Answer:

17 atoms are in 3(SO)4

Explanation:

Final answer:

There are 15 total atoms in $3(SO)4.$

Explanation:

To find the total number of atoms in a chemical formula like 3(SO)4, you need to multiply the subscripts (the numbers outside the parentheses) by the number of atoms represented by each element within the parentheses and then multiply that by the coefficient (the number outside the formula).

In this case, you have:

$3(SO)4.$

Now, let's break it down:

The subscript for sulfur (S) is 1.

The subscript for oxygen (O) is 4.

So, for each (SO4) unit, you have 1 sulfur atom and 4 oxygen atoms.

Now, multiply this by the coefficient of 3:

$3(SO)4.$ = 3 * (1 sulfur atom + 4 oxygen atoms)

= 3 sulfur atoms + 12 oxygen atoms

So, in $3(SO)4.$ , there are a total of 3 sulfur atoms and 12 oxygen atoms, for a combined total of 15 atoms.