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Would you expect iodine to displace bromine form a solution of potassium bromide?
No. However, bromine would displace iodine in potassium iodide.
In an electron dot diagram of potassium There is one dot. In an electron dot diagram of silicon there are four dots. Which element would you expect to be more reactive?
silicon
Would you expect strontium to be more like potassium bromine why?
Strontium, with atomic symbol Sr, would be more like potassium, because both strontium and potassium are active metals and bromine is a nonmetal. The actual element with symbol S is sulfur, and that would be more like bromine, because those elements are both nonmetals.
What type of bond would you expect 39k19 to form?
39K19 refers to the element potassium. Potassium is an alkali metal that tends to form ionic bonds due to its tendency to lose an electron and achieve a stable octet configuration. Therefore, you would expect 39K19 to form ionic bonds with other elements by donating its one valence electron.
Based on the weather map where would you expect to find the highest wind speeds?
Where isobars are spaced closest together
Would you expect iodine to displace bromine form a solution of potassium bromide?
No. However, bromine would displace iodine in potassium iodide.
What type of bonding might you expect between two potassium atoms?
You would expect metallic bonding between two potassium atoms. Metallic bonding involves the sharing of electrons between all the atoms in a metal, leading to a sea of delocalized electrons that hold the metal atoms together in a lattice structure.
What type of salt would be made if nitric acid was reacted with potassium hydroxie?
Potassium nitrate salt would be formed when nitric acid and potassium hydroxide are reacted together.
Would you expect strontium to be like potassium or bromine?
Strontium is closer to potassium because both are metals and belong to s-block of Periodic Table.
Are potassium and silver an ionic compound?
No. together potassium and silver would form an alloy, which is a kind of mixture.
Would you expect cesium element 55 to be more or less reactive than potassium?
I would expect cesium, element 55, to be more reactive than potassium. This is because cesium is further down the alkali metal group in the periodic table, making it more eager to lose an electron compared to potassium.
What do you expect to observe when a solution of potassium nitrate saturated at 343 k or 70 c is cooled to room temprature?
Upon cooling the solution of potassium nitrate from 70°C to room temperature, you would expect to observe the formation of crystals as the solubility of potassium nitrate decreases with decreasing temperature. These crystals will form as the excess potassium nitrate in the solution starts to come out of the solution and solidify.
Which element would you expect to be located in group 1 in the periodic table?
The elements are: lithium, sodium, potassium, rubidium, caesium and francium.
What type of bond would you expect potassium to form?
Potassium would typically form an ionic bond, because it readily donates its outer electron to achieve a more stable electron configuration. This electron transfer allows potassium to bond with other elements that can accept its electron.
What type of bond would you expect between an atom of fluorine and an atom of potassium?
Ionic bond, because fluorine is electronegative compared to potassium. Fluorine will transfer an electron to potassium, resulting in the formation of ions with opposite charges that are attracted to each other.
Can you make potassium hydroxide by mixing potassium sulfate and calcium hydroxide?
No, potassium hydroxide cannot be made by mixing potassium sulfate and calcium hydroxide. Potassium hydroxide is typically produced through the electrolysis of potassium chloride. Mixing potassium sulfate and calcium hydroxide would not result in the formation of potassium hydroxide.
Which of these would you expect to be true regarding the solubility of KOH in water?
KOH (potassium hydroxide) is a strong base and is highly soluble in water due to the strong electrostatic interactions between the potassium and hydroxide ions with water molecules. Therefore, you would expect KOH to dissolve readily in water to form a clear solution with high conductivity.
