What would be the identity of another student's metal unknown if a 61 g sample of...

A 210 g sample of unknown, silvery metal at 59.0 ∘C is dropped into a calorimeter...

A 210 g sample of unknown, silvery metal at 59.0 ∘C is dropped into a calorimeter containing 230 gof 18.0 ∘C water. Part A)If the equilibrium temperature is 20.0∘C, which material is the unknown likely to be? A) Silver (c= 235 J/kg⋅∘C) B) Steel (c= 500 J/kg⋅∘C) C) Lead (c= 128 J/kg⋅∘C) D) Aluminum (c= 900 J/kg⋅∘C)

You are given an unknown substance with mass of 400.0 g. The unknown substance is heated...

You are given an unknown substance with mass of 400.0 g. The unknown substance is heated to a temperature of 97.0°C, and then dropped into a calorimeter that is at an initial temperature of 18.0°C. The calorimeter is composed of a 140.0 g aluminum inner cup and 10.0 g stirrer (also aluminum). The mass of the inner cup plus water is 340.0 g. When equilibrium is established, the temperature is 22.0°C. There are no phase changes. 1. What is the...

A metal sample weighing 72.1 g is placed in a hot water bath at 95.0 oC....

A metal sample weighing 72.1 g is placed in a hot water bath at 95.0 oC. The calorimeter contains 42.3 g of deoinized water. The initial temperature of the water is 22.3 oC. The metal is transferred to the calorimeter and the final temperature reached by the water + metal is 32.2 oC. A. Calculate ∆T for the water (Tfinal – Tinitial). B. Calculate ∆T for the metal. C. The specific heat of water is 4.18 J/goC. Calculate the specific...

In the laboratory, you are given a 18.5 g sample of an unknown metal. The sample...

In the laboratory, you are given a 18.5 g sample of an unknown metal. The sample is irregular in shape, conducts heat and electricity well, and sinks in water. The sample is placed into a partially filled graduated cylinder and displaces 2.06 mL of water. The sample is then heated to 160℃ with a Bunsen burner. The hot metal is placed into a calorimeter filled with exactly 50.0 g of water. The water temperature rises from 20℃ to 24.6℃ ....

3. A sample of metal weighing 35.5g at a temperature of 100 oC was placed in...

3. A sample of metal weighing 35.5g at a temperature of 100 oC was placed in a calorimeter containing 50 g of water at 25.0 oC. At equilibrium the temperature of water and metal was 35.5 oC. Calculate the heat capacity of the metal. . Use this value for Cp:27.65. 4. When 0.50 g of magnesium metal is placed in a calorimeter, and 100. mL of 1.0 M HCl were added the temperature of solution increased from 22.2 oC to...

A 48.2 g sample of a metal is heated to 95.8 degrees C and placed in...

A 48.2 g sample of a metal is heated to 95.8 degrees C and placed in a coffee-cup calorimeter containing 79.0 g of water at a temperature of 18.5 degrees C. After the metal cools, the final temperature of the metal and water is 22.8 degrees C. Calculate the specific heat capacity of the metal, assuming that no heat escapes to the surroundings or is transferred to the calorimeter.

A 6.40 g sample of iron (specific heat capacity = 0.451 J/g*C) is placed in a...

A 6.40 g sample of iron (specific heat capacity = 0.451 J/g*C) is placed in a boiling water bath until the temperature of the metal is 100.0*C. The metal is quickly transferred to 119.0g of water at 25.0*C in a calorimeter (specific heat capacity of water = 4.18 J/g*C). Determine the final temperature of the water in the calorimeter (3 significant figures).

1. A 50-g sample of iron at 100oC is put into 75 g of water at...

1. A 50-g sample of iron at 100oC is put into 75 g of water at 0oC. What is the final temperature of the mixture? (The specific heat of iron is 0.11 cal/g Co.) 2. A machine part consists of 0.10 kg of iron and 0.16 kg of copper. How much heat is added to the gear if the temperature increases by 35oC? [Hint: Compute the heat required for each metal and add the numbers. State your answer in joules.]...

A 6.40 g sample of iron (specific heat capacity =0.451 J/g*C) is placed in a boiling...

A 6.40 g sample of iron (specific heat capacity =0.451 J/g*C) is placed in a boiling water bath until the temperature of the metal is 100.0*C. The metal is quickly transferred to 119.0g of water at 25.0*C in a calorimeter (specific heat capacity of water = 4.18 J/g*C). Determine the final temperature of the water in the calorimeter (3 significant figures).

If 264.6 g sample of iron is placed in 1.005 L of water initially at 19.884oC...

If 264.6 g sample of iron is placed in 1.005 L of water initially at 19.884oC and both substances reach a final temperature of 28.151oC, what is the initial temperature (in oC) of the metal? Assume all heat is transferred between the water and the iron.