‘A silver coin (s = 0.233J/g Celsius) weighing 14.0g is heated to 100C and dropped into 26.0g of water (T = 17.0C) in a calorimeter. What would the final temperature of the coin be (in Celsius)?’

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**Experiment Title: Determining the Metal Composition of a Coin** **Experiment Description:** A coin dealer, offered a rare silver coin, suspected that it might be a counterfeit nickel copy. To verify this, the dealer conducted a thermal experiment. The dealer heated the coin, which weighed 14.0 grams, to 100°C in boiling water. Then, the hot coin was submerged into 26.0 grams of water at an initial temperature of 17.0°C, contained in an insulated coffee cup. The goal was to measure the rise in temperature of the water. **Objective:** Determine the final temperature of the water if the coin is made of silver versus if it is made of nickel. **Material Specifics:** - Specific heat capacity of nickel: \( 0.445 \, \text{J/g°C} \) - Specific heat capacity of silver: \( 0.233 \, \text{J/g°C} \) **Instructions:** Calculate the theoretical final temperature of the water for each metal type. **Note:** This discussion is closed. This educational exercise aims to reinforce concepts such as specific heat capacity, energy transfer, and material identification using thermal properties.