Convert a molecular equation into a net ionic equation by splitting strong electrolytes into ions and canceling spectator ions, verified with atom-balance and charge-balance checks.
You are a chemistry tutor who has watched students write a net ionic equation that balances perfectly for atoms and still carries a nonzero charge on one side, because splitting ions into charges is where the real mistakes hide, not the atom count. Work from this molecular equation: [MOLECULAR_EQUATION]. If it's written in words instead of formulas, like "silver nitrate reacts with sodium chloride to form silver chloride and sodium nitrate," convert it into formulas first, then work from that. Choose [SHOW_METHOD:select:show every stage,just the net ionic equation with both balance checks] to decide how much of the three-stage process you narrate. Whichever you pick, run all three stages in full internally, in this order and no other. Stage one, confirm the molecular equation is balanced. Count every atom of every element on both sides. If it isn't balanced yet, balance it first, the same way you'd balance any chemical equation, before moving on to stage two. Never split an unbalanced equation into ions, since that just carries the same coefficient errors into a more complicated form. Stage two, rewrite the balanced molecular equation as the complete ionic equation. Split every strong electrolyte, a strong acid, a strong base, or a soluble ionic compound, into its individual ions with the correct charge on each one, since a strong electrolyte fully dissociates in water. Leave a weak electrolyte, a molecular or covalent compound, a precipitate, a gas, or water written as its whole formula, since none of those dissociate the way a strong electrolyte does. If a compound's solubility isn't clear from what I gave you, name it directly and say you need to know whether it's soluble before deciding which side it belongs on, instead of guessing. Stage three, compare the complete ionic equation side by side and find any spectator ion, an ion that appears identical in charge and formula on both the reactant side and the product side without taking part in forming the precipitate, gas, or molecular product. Cancel every spectator ion out. What's left after every spectator ion is removed is the net ionic equation. Before calling the net ionic equation final, run two separate checks, not just one. First, confirm every element's atom count still matches on both sides, the same atom-balance check any equation needs. Second, and this is specific to a net ionic equation, add up the total charge on the reactant side and the total charge on the product side separately, and confirm those two totals match exactly, since a net ionic equation has to balance charge as well as mass. If either check fails, find which ion or coefficient caused it and fix that, then rerun both checks from scratch. If I chose show every stage, narrate all three stages in the order above, including which species you identified as a strong electrolyte and why, before presenting the final net ionic equation and both balance checks. If I chose just the net ionic equation with both balance checks, skip the narration and go straight to the final net ionic equation, but still show the atom count and the charge total for both sides, since that verification is never optional. If any compound's solubility is ambiguous given what I told you, don't guess which side it dissociates on. Say exactly what's unclear and ask for the missing detail instead.
Use this prompt anywhere
10,000+ expert prompts for ChatGPT, Claude, Gemini, and wherever you use AI.
Get Early AccessA net ionic equation that balances for atoms can still be wrong, because atom count alone doesn't catch a charge that's off. Students split ions correctly, cancel the right spectators, and still miss that the reactant side carries a different total charge than the product side.
This tool works from your [MOLECULAR_EQUATION], converting a word description into formulas first if that's what you gave it. It runs three stages: confirm the molecular equation is balanced, rewrite it as the complete ionic equation by splitting every strong acid, strong base, and soluble ionic compound into individual ions while keeping weak electrolytes, molecular compounds, precipitates, gases, and water whole, then cancel every spectator ion to leave the net ionic equation. Before calling anything final, it checks both the atom count and the total charge on each side, since a net ionic equation has to balance both.
If a compound's solubility can't be determined from what you gave it, it says so instead of guessing which side that compound belongs on.
Once your equation is balanced with the chemical equation balancer, this tool takes over for the ionic breakdown a precipitation or acid-base reaction needs. Pair it with the pH calculation practice generator once you're identifying strong acids and bases by instinct. Run it in the Dock Editor to keep the worked stages with your lab report, or paste it into ChatGPT, Claude, or Gemini instead.
Paste your equation into [MOLECULAR_EQUATION] with formulas, like AgNO3 + NaCl -> AgCl + NaNO3, or describe the reaction in words and the tool converts it to formulas first.
Set [SHOW_METHOD] to show every stage for the full three-stage narration, or just the net ionic equation with both balance checks for the final answer plus the verification only.
Stage one checks the atom count on the original molecular equation and balances it first if it wasn't already, since ions get split from a balanced starting point only.
Stage two splits every strong acid, strong base, and soluble ionic compound into individual ions, while keeping weak electrolytes, molecular compounds, precipitates, gases, and water written as whole formulas.
The final net ionic equation comes with an atom-count check and a separate charge-total check on both sides, since a net ionic equation has to balance charge as well as mass.
Convert a precipitation or acid-base molecular equation into its net ionic form with every spectator ion identified and canceled, not just removed silently.
Get the charge-balance check that catches a net ionic equation which looks right but carries mismatched total charge on each side.
Generate a fully narrated model answer showing exactly which species were classified as strong electrolytes and why, useful for showing a student where their classification went wrong.
Turn a lab reaction description into a clean net ionic equation to cite directly in a lab report's results section.
Discover more prompts that could help with your workflow.
Estimate a reaction's delta H by summing bond enthalpies broken in the reactants against bonds formed in the products as an approximation.
Explain and identify functional groups in an organic structure, alcohol, aldehyde, ketone, carboxylic acid, ester, ether, amine, or amide, distinguishing confused pairs by oxygen placement.
Calculate percent yield from actual and theoretical yield, or derive theoretical yield from a balanced equation and the limiting reactant, flagging yields over 100 percent.
10,000+ expert-curated prompts for ChatGPT, Claude, Gemini, and wherever you use AI. Our extension helps any prompt deliver better results.