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Qu'est-ce que Risk-Reward Ratio Calculator?
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The risk-reward ratio (RRR) is one of the most fundamental concepts in trading and investing, measuring the potential profit of a trade relative to its potential loss. Expressed as a ratio of expected gain to expected loss, it quantifies the trade-off that every investor must make: how much are you risking for the opportunity to gain how much? A risk-reward ratio of 1:3 means you risk $1 to potentially gain $3 — commonly interpreted as the gain being 3 times the risk. In practical trading, the risk is typically defined as the distance between the entry price and the stop-loss price (the point at which you exit the trade to limit losses). The reward is the distance between the entry price and the profit target. For example, if you buy a stock at $50, place a stop-loss at $47, and set a profit target at $59, the risk is $3/share and the reward is $9/share, giving a risk-reward ratio of 1:3. The risk-reward ratio does not tell you the probability of winning or losing — that requires separate analysis. A 1:3 RRR means that if you win only one-third of your trades (33% win rate), you break even. Below 33%, you lose money; above 33%, you profit. The break-even win rate is calculated as 1 / (1 + RRR) = 1 / (1 + 3) = 25%. This framework makes the relationship between win rate and required RRR explicit: strategies with lower win rates need higher RRR to be profitable. Professional traders combine RRR with estimated probability to compute expected value: EV = (Win Probability × Reward) − (Loss Probability × Risk). A trade is worth taking only if EV > 0. The combination of minimum 1:2 or 1:3 RRR with a realistic win rate assessment is the foundation of systematic trading risk management. Many successful traders maintain RRR of 2:1 or higher, meaning they need to be right only 33–40% of the time to be profitable overall. Beyond individual trades, portfolio-level risk-reward analysis examines expected return per unit of risk (the Sharpe ratio for portfolios), risk-adjusted return metrics, and the trade-off between expected return and drawdown risk across strategy alternatives.
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Formule
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RRR = Potential Reward / Potential Risk
Break-Even Win Rate = 1 / (1 + RRR) = Risk / (Risk + Reward)
Expected Value = (Win% × Reward) − (Loss% × Risk)Légende des variables
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| Symbole | Nom | Unité | Description |
|---|---|---|---|
| R_risk | Risk (Potential Loss) | USD or % | Maximum expected loss if the trade goes against you; distance from entry to stop-loss price. |
| R_reward | Reward (Potential Gain) | USD or % | Expected profit if the trade reaches the target; distance from entry price to profit target. |
| RRR | Risk-Reward Ratio | ratio | Reward / Risk; a ratio of 3:1 means potential gain is 3× the potential loss. |
| BEW | Break-Even Win Rate | % | Minimum win rate needed to break even: BEW = 1 / (1 + RRR). Win rates above this produce net profit. |
| EV | Expected Value per Trade | USD | EV = (Win Rate × Reward) − (Loss Rate × Risk). Only trade when EV > 0. |
Comment Risk-Reward Ratio Calculator
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- 1Identify the trade setup: entry price, stop-loss level (maximum acceptable loss), and profit target.
- 2Calculate risk: Risk = |Entry Price − Stop-Loss Price| per share or unit.
- 3Calculate reward: Reward = |Profit Target − Entry Price| per share or unit.
- 4Compute RRR: RRR = Reward / Risk. Most professional traders require RRR ≥ 2:1.
- 5Calculate break-even win rate: BEW = 1 / (1 + RRR). Compare to your realistic win rate for this strategy.
- 6Estimate trade probability and calculate expected value: EV = (Win% × Reward) − (Loss% × Risk). Only enter if EV > 0.
- 7Size the position using fixed fractional position sizing: Risk Amount = Account Equity × Risk Per Trade %; Position Size = Risk Amount / Risk Per Share.
Exemples résolus
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Excellent RRR — profitable even with only 25% win rate
Risk = $100 − $96 = $4/share. Reward = $112 − $100 = $12/share. RRR = $12/$4 = 3:1. Break-even win rate = 1/(1+3) = 25% — you only need to win 1 in 4 trades to break even. Expected value at 40% win rate: EV = (0.40 × $12) − (0.60 × $4) = $4.80 − $2.40 = $2.40 per share, per trade. This is a high-quality setup. A professional trader with 10% account risk per trade and $50,000 account would risk $5,000: position size = $5,000 / $4 = 1,250 shares.
Standard lot = 100,000 units; 1 pip = $10
Risk = 50 pips × $10/pip = $500. Reward = 150 pips × $10 = $1,500. RRR = 3:1. Break-even win rate = 25%. If the trader has a 45% win rate on this strategy: EV = (0.45 × $1,500) − (0.55 × $500) = $675 − $275 = $400 per trade. With 20 trades per month, expected monthly profit = $8,000. Forex traders commonly target 2:1 to 3:1 RRR minimum, recognizing that forex markets are highly competitive and maintaining consistent win rates above 50% is difficult.
RRR below 1:1 — requires >63% win rate to be profitable
RRR = $3 / $5 = 0.6:1. This is unfavorable — risking more than you stand to gain. Break-even win rate = 1/(1+0.6) = 62.5%. Even experienced traders rarely achieve consistent 63%+ win rates on stocks, making this trade unprofitable in expectation for most. A skilled trader might pass on this setup entirely or widen the profit target to at least $210 (RRR = 2:1, break-even = 33%) or tighten the stop to $197.50 (RRR = 1.5:1, break-even = 40%). Never force a trade with unfavorable RRR simply because you're confident in direction.
Options asymmetry: defined max loss but unlimited theoretical upside
When buying an options contract, maximum risk is the premium paid ($3.00/share). If the stock reaches $106, the option may be worth $6.00, giving a $3.00 profit — a 1:1 RRR. This modest RRR means a 50% win rate is needed to break even. However, options can produce much higher RRR if the stock moves significantly: if the stock reaches $115, the option might be worth $15 — a 4:1 RRR. The asymmetric payoff profile (defined max loss, variable upside) is why options are used for leveraged directional bets where the RRR expands significantly with larger moves.
Applications pratiques
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Day trading and swing trading entry/exit planning, representing an important application area for the Risk Reward Ratio in professional and analytical contexts where accurate risk reward ratio calculations directly support informed decision-making, strategic planning, and performance optimization
Options strategy selection (covered calls, spreads, long options), representing an important application area for the Risk Reward Ratio in professional and analytical contexts where accurate risk reward ratio calculations directly support informed decision-making, strategic planning, and performance optimization
Investment due diligence — upside vs. downside scenario analysis, representing an important application area for the Risk Reward Ratio in professional and analytical contexts where accurate risk reward ratio calculations directly support informed decision-making, strategic planning, and performance optimization
Real estate investment evaluation (expected appreciation vs. carrying costs), representing an important application area for the Risk Reward Ratio in professional and analytical contexts where accurate risk reward ratio calculations directly support informed decision-making, strategic planning, and performance optimization
Venture capital deal assessment (exit multiple vs. write-off risk), representing an important application area for the Risk Reward Ratio in professional and analytical contexts where accurate risk reward ratio calculations directly support informed decision-making, strategic planning, and performance optimization
Cas particuliers
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{'case': 'Trailing Stop (Variable Reward)', 'explanation': 'With a trailing stop, the realized reward is not fixed at entry — it depends on how far the trade moves before reversing. Average RRR over many trades with trailing stops is calculated from historical data. Trailing stops can dramatically increase average RRR vs. fixed targets.'}
Extremely large or small input values in the Risk Reward Ratio may push risk
Extremely large or small input values in the Risk Reward Ratio may push risk reward ratio calculations beyond typical operating ranges. While mathematically valid, results from extreme inputs may not reflect realistic risk reward ratio scenarios and should be interpreted cautiously. In professional risk reward ratio settings, extreme values often indicate measurement errors, unusual conditions, or edge cases meriting additional analysis. Use sensitivity analysis to understand how results change across plausible input ranges rather than relying on single extreme-case calculations.
When risk reward ratio input values approach zero or become negative in the
When risk reward ratio input values approach zero or become negative in the Risk Reward Ratio, mathematical behavior changes significantly. Zero values may cause division-by-zero errors or trivially zero results, while negative inputs may yield mathematically valid but practically meaningless outputs in risk reward ratio contexts. Professional users should validate that all inputs fall within physically or financially meaningful ranges before interpreting results. Negative or zero values often indicate data entry errors or exceptional risk reward ratio circumstances requiring separate analytical treatment.
Win Rate Required for Profitability by Risk-Reward Ratio
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| RRR | Break-Even Win Rate | At 40% Win Rate EV | At 50% Win Rate EV | Strategy Type |
|---|---|---|---|---|
| 0.5:1 | 67% | −0.10R | +0.25R | Very high win-rate only |
| 1:1 | 50% | −0.20R | 0.00R (break-even) | Scalping, mean reversion |
| 1.5:1 | 40% | 0.00R | +0.25R | Moderate systems |
| 2:1 | 33% | +0.20R | +0.50R | Standard professional minimum |
| 3:1 | 25% | +0.40R | +1.00R | Trend following, swing trade |
| 5:1 | 17% | +0.80R | +2.00R | Breakout / speculative |
| 10:1 | 9% | +1.60R | +4.50R | Options strategies, long tails |
Questions fréquentes
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What is a good risk-reward ratio?
Most professional traders target a minimum RRR of 2:1, meaning potential reward is at least twice the potential risk. A 2:1 RRR requires only a 33% win rate to break even (1 winning trade out of 3). Many trend-following strategies target 3:1 or higher, reducing the win rate required for profitability to 25%. The 'right' RRR depends on your win rate: a strategy with a 60% win rate can be profitable even with a 1:1 RRR (EV = 0.6×R − 0.4×R = +0.2R > 0). The combination of win rate and RRR must produce positive expected value — neither metric alone determines profitability.
Can a strategy with a 30% win rate be profitable?
Absolutely, if the RRR is high enough. At 30% win rate, the break-even RRR = (1 − 0.30) / 0.30 = 2.33:1 — you need at least a 2.33:1 RRR to break even. Many trend-following strategies win on only 30–40% of trades but maintain high RRR by cutting losers quickly (tight stops) and letting winners run (trailing stops). These strategies have long periods of small losses interrupted by occasional large gains. The Turtle Trading rules, managed futures, and momentum strategies often exhibit this profile — which is profitable in the long run despite feeling psychologically uncomfortable due to frequent small losses.
How does position sizing relate to risk-reward?
Risk-reward determines the quality of a trade opportunity; position sizing determines how much of that opportunity to take. The standard approach is fixed fractional position sizing: risk a fixed percentage of account equity per trade (typically 1–2% for professional traders). Position size = (Account × Risk%) / (Entry − Stop-Loss per share). Combined with RRR, this creates a complete trade plan: the position size determines dollar risk, and the RRR determines dollar potential. A 2% account risk on a 3:1 RRR trade means risking 2% to potentially gain 6%. Over many trades with positive expected value, this approach systematically grows the account.
Should I always maintain the same RRR?
No — the required RRR should reflect the realistic probability of the trade reaching the target vs. the stop. High-probability setups (breakouts with strong volume confirmation, earnings plays with insider buying) may justify lower RRR (1.5:1 or 2:1) because the win probability is high. Low-probability speculative trades should require much higher RRR (5:1 or more) to compensate. The key is expected value: RRR × Win Probability must exceed (1 − Win Probability) × 1.0. Mechanically requiring 3:1 on every trade ignores the probability dimension, which is equally important.
What are common mistakes in setting stop-loss levels?
Common stop-loss placement errors include: (1) Arbitrary dollar stops — setting stops based on comfortable dollar amounts rather than technical levels, causing frequent premature exits from valid trades; (2) Too tight stops — placing stops within normal market noise, ensuring near-certain loss even when the directional thesis is correct; (3) Too loose stops — placing stops so far away that the resulting RRR is poor or the position size must be too small to be meaningful; (4) Moving stops against the trade (widening) — a discipline failure that converts a calculated risk into undefined exposure; (5) Ignoring volatility — the same absolute stop distance has very different meaning for a low-volatility vs. high-volatility stock.
How is the risk-reward ratio used in portfolio management vs. individual trades?
At the individual trade level, RRR evaluates each opportunity. At the portfolio level, the key metric shifts to the Sharpe ratio: expected portfolio return above the risk-free rate, divided by portfolio standard deviation. The Sharpe ratio is the portfolio-level generalization of per-trade RRR, incorporating the entire joint distribution of returns rather than a simple two-scenario binary model. Portfolio managers also analyze maximum drawdown (the worst peak-to-trough equity decline) as the portfolio-level equivalent of 'maximum loss' in the trade-level RRR framework. Strategies must be evaluated on both Sharpe ratio and maximum drawdown for a complete risk-reward picture.
Does the risk-reward ratio account for the probability of the trade working?
The raw RRR does not incorporate probability — it is purely a ratio of potential outcomes. A 10:1 RRR is not automatically attractive if the win probability is 2% (EV = 0.02×10R − 0.98×R = −0.78R < 0). Expected value combines RRR with probability: EV = (Win% × Reward) − (Loss% × Risk). Traders must honestly assess win probability from their strategy's historical performance, market conditions, and the specific trade setup quality. Many retail traders overestimate their win probability, making trades that appear attractive on RRR alone but are actually negative expected value when probability is correctly assessed.
Erreurs courantes à éviter
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- !Confusing RRR with win rate — a 3:1 RRR does not mean a 75% chance of winning.
- !Setting profit targets and stop-losses at arbitrary round numbers rather than meaningful technical levels.
- !Accepting a trade with good RRR but negative expected value because win probability is too low.
- !Ignoring transaction costs (commissions, spreads, slippage) which reduce effective reward and can flip a marginally positive EV to negative.
- !Changing profit targets or stops mid-trade based on emotion, which invalidates the original RRR analysis.
Conseil Pro
Keep a trading journal that records entry, stop-loss, profit target, actual exit, and win/loss for every trade. After 50+ trades, analyze your realized average RRR and win rate. The product of these (EV per R risked) tells you objectively whether your edge is real and sustainable.
Le saviez-vous?
The 2:1 minimum risk-reward rule is closely associated with the trading philosophy of Ed Seykota, a pioneering commodity trader who reportedly achieved extraordinary long-term returns. Seykota emphasized that consistent profitability requires not just being right about direction, but being right with good risk-reward on each trade — a lesson that separates consistently profitable traders from those who are right more often but still lose money.
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