MULTI-STEP HEAT PROBLEMS The data below refers to an unknown substance, X. Boiling Point Heat of SH Capacity SH (solid) Vaporization (liquid) 86.0°C 150 J/g 550 J/g 4.3 J/gºC 5.2 J/gºC 1.1 J/gºC 1. Draw a heating curve for substance X, going from 2°C to 120°C on the axis below. Write in all formulas used to calculate heat. (T2-T) Melting point 14.0°C Heat of Fusion (solid) melting (Fusim) heating qs-mx SH T2=120°C Ti=86.0°C heating 9² (vapor) (liquid) vaporization 2¹ 92=mxAH fus heating 25 q4=mx Alvap q1=myst (solid) (T₂-T₁) I2=14.0°C T₁-2°C vapor (gas) q2 = mxsHliqui djx (T₂-T₁). SH (vapor) Alvap->heat of c. How much heat will be released when 25g of X cools from 110°C to 50°C? Vaporization T2=86.0°C T₁ =14.0°C Atrus->heat of fusion M-mass of X 2°C Solid b. Determine the amount of heat necessary to change 30g of X from solid at 4°C to liquid at 14°C.

Answer question “C”

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MULTI-STEP HEAT PROBLEMS The data below refers to an unknown substance, X. Boiling Point Melting point 14.0°C 86.0°C Heat of Fusion Heat of Vaporization 550 J/g heating (solid) melting (Fusim) qº 150 J/g 4.3 J/gºC 5.2 J/gºC 1.1 J/gºC 1. Draw a heating curve for substance X, going from 2°C to 120°C on the axis below. Write in all formulas used to calculate heat. qs-mx SH (vapor) (T2-T) SH Capacity SH (solid) T2=120°C T₁ =86.0°C having your taste buds rocked, here's $10 off your order of re heating (liquid) vaporization 21 (liquid) q2=mxAH fus q1=mxsh (solid) (T₂-T₁) 12=14.0°C T₁ -2°C heating q4=mx Alvap SH (vapor) qs vapor (gas) q2 = mxsH (iqui djx (T₂-T₁). Alvop->heat of c. How much heat will be released when 25g of X cools from 110°C to 50°C? Vaporization T2=86.0°C T₁=14.0°C Attfur->heat of fusion M-mass of x 2°C Solid b. Determine the amount of heat necessary to change 30g of X from solid at 4°C to liquid at 14°C. 10 Enter Shift PgDn