1. If q=mc∆T, what would the formula be if you needed to solve for specific heat (c)?
2. If q=mc∆T, what would the formula be if you needed to solve for mass (m)? 3. If q=mc∆T, what would the formula be if you needed to solve for change in temperature (∆T)? 4. If q=mc∆T, what would the formula be if you needed to solve for the final temperature (TF)? ∆T is the same as (TF - Ti) 5. If q=mc∆T, what would the formula be if you needed to solve for the initial temperature (Ti)? ∆T is the same as (TF - Ti) 6. 100.0 mL of 4.0°C water is heated until its temperature is 37°C. If the specific heat of water is 4.18 J/g°C, calculate the amount of heat energy needed to cause this rise in temperature. 7. 25.0 g of mercury is heated from 25°C to 155°C, and absorbs 455 joules of heat in the process. Calculate the specific heat capacity of mercury.
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