If 200 grams of water is to be heated from 24.0°C to 100°C to make a cup of tea, how much heat must be added? The specific heat of water is 4.18 J/g°C Mass of Substance (M): 7.974 Grams of water to US tablespoons; 200 grams of water = 13.5 US tablespoons: 210 grams of water = 14.2 US tablespoons: 220 grams of water = 14.9 US tablespoons: 230 grams of water = 15.6 US tablespoons: 240 grams of water = 16.2 US tablespoons: 250 grams of water = 16.9 US tablespoons: 260 grams of water = 17.6 US tablespoons: 270 grams of water The vapor pressure of water calculator found the pressure according to five formulas. The most often used is the Antoine equation (. 4.245\ \mathrm {kPa} 4.245 kPa) is usually the most accurate one for temperature ranges we typically look for. \mathrm {mmHg} mmHg or any other unit. To convert 200 grams to cups we use the following equation: cups = m / (ρ * cup size), ρ in g/ml or g/cm 3. For example, for water with ρ = 1 and United States “legal” cups we get Cups = 200 g / ( 1g / ml * 240 ml) ≈ 0.42. For water, 200 g to cup makes 0.42 cups with a capacity of 240 ml. Butter and milk would have a different value Question. A scientist makes a solution that contains 44.0 grams of hydrogen chloride gas, HCl (g), in 200 grams of water, \mathrm {H}_ {2} \mathrm {O} (\mathrm {\ell}) H2O(ℓ), at 20^ {\circ} C 20∘C. This process is represented by the balanced equation below \mathrm {HCl} (g) \stackrel {\mathrm {H}_ {2} {O}} {\longrightarrow} \mathrm {H Question: A 50 gram sample of ice at 0°C is placed in a glass beaker that contains 250 grams of water at 20°C. How much heat would be released by the water to melt this amount of ice? A 50 gram sample of ice at 0°C is placed in a glass beaker that contains 250 grams of water at 20°C. 50 gram [water] to ounces = 1.6907 ounces. 100 gram [water] to ounces = 3.3814 ounces. 200 gram [water] to ounces = 6.7628 ounces. Example #1: Determine the final temperature when 32.2 g of water at 14.9 °C mixes with 32.2 grams of water at 46.8 °C. This is problem 8a from Worksheet #2. First some discussion, then the solution. Forgive me if the points seem obvious: 1) The colder water will warm up (heat energy "flows" into it). wOll5R.