1. Calculate specific heat for Aluminum in J/(g °C) showing all work: (use 4.184 J/(g °C)...

In an experiment, 100 g of aluminum (with a specific heat of 900 J/kg·K) at 79.0°C...

In an experiment, 100 g of aluminum (with a specific heat of 900 J/kg·K) at 79.0°C is mixed with 80.0 g of water (with a specific heat of 4186 J/kg·K) at 43.0°C, with the mixture thermally isolated. (a) What is the equilibrium temperature? What are the entropy changes of (b) the aluminum, (c) the water, and (d) the aluminum-water system?

In an experiment, 150 g of aluminum (with a specific heat of 900 J/kg·K) at 67.0°C...

In an experiment, 150 g of aluminum (with a specific heat of 900 J/kg·K) at 67.0°C is mixed with 69.0 g of water (with a specific heat of 4186 J/kg·K) at 18.0°C, with the mixture thermally isolated. (a) What is the equilibrium temperature? What are the entropy changes of (b) the aluminum, (c) the water, and (d) the aluminum-water system?

The following table lists the specific heat capacities of select substances: Substance Specific heat capacity [J/(g⋅∘C)]...

The following table lists the specific heat capacities of select substances: Substance Specific heat capacity [J/(g⋅∘C)] silver 0.235, copper 0.385, iron 0.449, aluminum 0.903, ethanol 2.42, water 4.184, Water (2430 g ), is heated until it just begins to boil. If the water absorbs 5.07×105 J of heat in the process, what was the initial temperature of the water? Express your answer with the appropriate units.

a. An ice cold piece of aluminum metal is added to 50.0 g of hot water....

a. An ice cold piece of aluminum metal is added to 50.0 g of hot water. Given the average initial temperature (76 C) calculated above for the hot water, calculate the heat, q, in joules of the piece of aluminum metal if the final temperature of the water is 40.0 °C. The specific heat of water is 4.184 J/g-°C. (0.50) b. Calculate the grams of aluminum metal used if the specific heat of aluminum is 0.895 J/g-°C. (0.50)

The specific heat of water is 4.18 J/(g⋅∘C). Calculate the molar heat capacity of water.

The specific heat of water is 4.18 J/(g⋅∘C). Calculate the molar heat capacity of water.

Calculate the initial temperature, in °C, for a 105-g sample of aluminum (s = 0.900 J/g....

Calculate the initial temperature, in °C, for a 105-g sample of aluminum (s = 0.900 J/g. K) that is added to a calorimeter (C = 107 J/K) filled with 96.5 g of water (s = 4.184 J/g. K) at 23.3 °C. The equilibrium temperature for the experiment is 35.2 °C.

A 35.7 gram sample of iron (heat capacity 0.45 g/J°C) was heated to 99.10 °C and...

A 35.7 gram sample of iron (heat capacity 0.45 g/J°C) was heated to 99.10 °C and placed into a coffee cup calorimeter containing 42.92 grams of water initially at 15.15 °C. What will the final temperature of the system be? (Specific heat of water is 4.184 J/g°C). Please show work.

use the following equation q=mxcx♤t in the experiment to determine the specific heat of a metal...

use the following equation q=mxcx♤t in the experiment to determine the specific heat of a metal , 50.0g of metal that has been heated to 100 °C is added to calorimeter (made of two styrofoam coffee cups with a lid and thermometet), containing 50g water at 20°C. the highest temperature that the water reaches is 27.5 °C when the specific heat of water is 4.184 J/g °C. What is the specific heat of the metal ?

Show work A. Aluminum has a specific heat of 0.880 J/g-degree. How many joules are needed...

Show work A. Aluminum has a specific heat of 0.880 J/g-degree. How many joules are needed to heat 725g of aluminum from 20.0oC to 125.0oC ? B. The delta H of combustion of C2H6 is 1541kJ/mole. How many kJ of energy result when 700.0g of C2H6 are combusted ?

Assuming the specific heat of water is 4200 J/kg/K and the specific heat of aluminum is...

Assuming the specific heat of water is 4200 J/kg/K and the specific heat of aluminum is 900 J/Kg/K, what is the increase of the system's entropy by the time it will reach equilibrium in temperature if it is 160 grams of aluminum at 370 deg. K in a cup of 1.3 kg of water at 281 deg. K