you will possibly desire to break it down into steps... ice from -8 C to 0 C ice to water at 0 C water from 0 C to a hundred C water to steam at a hundred C steam from a hundred C to 106 C Q = mc(tf-ti) + mL + mc(tf-ti) + mL + mc(tf-ti) Q = 38 g(2.05 J/gC)(0 - (-8)) + 38 g(343 J/g) + 38 g(4.186 J/gC)(a hundred-0) + 38 g(2257 J/gC) + 38 g(2.08 J/gC)(106-a hundred) Q = 116 000 J wish that helped...
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do Q=0.06L(ice)+0.06c(liquid)*100+0.06L(steam)+0.06c(steam)*35.
Cant be bothered to look up the latent and heat capacities but you can do that yourself
you will possibly desire to break it down into steps... ice from -8 C to 0 C ice to water at 0 C water from 0 C to a hundred C water to steam at a hundred C steam from a hundred C to 106 C Q = mc(tf-ti) + mL + mc(tf-ti) + mL + mc(tf-ti) Q = 38 g(2.05 J/gC)(0 - (-8)) + 38 g(343 J/g) + 38 g(4.186 J/gC)(a hundred-0) + 38 g(2257 J/gC) + 38 g(2.08 J/gC)(106-a hundred) Q = 116 000 J wish that helped...