Rank the following species according to the increasing energy needed to raise the temperature of 10.0 g of the substance by 25.0 ∘C.

Aluminum-.897J/g
water- 4.184J/g
Stainless steel - .500J/g
cast iron- .460J/g
copper-.385J/g
Can someone please show me how to figure this out?? Thank you so much!
-going crazy

q = mass x specific heat x delta T

#1.
q = 10.0g x 0.897 U/g x 25 = ?
Calculate q for each then rank from low to high.

To rank the species according to the increasing energy needed to raise the temperature of 10.0 g of the substance by 25.0 ∘C, you need to calculate the amount of energy required for each substance.

The formula to calculate the energy required to raise the temperature of a substance is as follows:

Energy = mass x specific heat x change in temperature

Specific heat (often denoted as "c") is a measure of how much energy a substance requires to raise its temperature by a certain amount. The specific heat values for the given substances are:

Aluminum: 0.897 J/g
Water: 4.184 J/g
Stainless steel: 0.500 J/g
Cast iron: 0.460 J/g
Copper: 0.385 J/g

Using this information, you can calculate the energy required for each substance:

Energy for Aluminum = 10.0 g x 0.897 J/g x 25.0 ∘C = 224.25 J
Energy for Water = 10.0 g x 4.184 J/g x 25.0 ∘C = 1046.00 J
Energy for Stainless steel = 10.0 g x 0.500 J/g x 25.0 ∘C = 125.00 J
Energy for Cast iron = 10.0 g x 0.460 J/g x 25.0 ∘C = 115.00 J
Energy for Copper = 10.0 g x 0.385 J/g x 25.0 ∘C = 96.25 J

Now that you have calculated the energy required for each substance, you can rank them in increasing order:

1. Copper: 96.25 J
2. Cast iron: 115.00 J
3. Stainless steel: 125.00 J
4. Aluminum: 224.25 J
5. Water: 1046.00 J

Therefore, the ranking from least to greatest energy required is:
Copper < Cast iron < Stainless steel < Aluminum < Water

To rank the species according to the increasing energy needed to raise the temperature, we need to calculate the energy required for each substance to raise the temperature of 10.0 g by 25.0 °C.

The energy required to raise the temperature of a substance can be calculated using the formula:

Energy = mass × specific heat capacity × change in temperature

Let's calculate the energy required for each substance:

1. Aluminum:
Energy = 10.0 g × 0.897 J/g °C × 25.0 °C
Energy = 224.25 J

2. Water:
Energy = 10.0 g × 4.184 J/g °C × 25.0 °C
Energy = 1046 J

3. Stainless steel:
Energy = 10.0 g × 0.500 J/g °C × 25.0 °C
Energy = 125 J

4. Cast iron:
Energy = 10.0 g × 0.460 J/g °C × 25.0 °C
Energy = 115 J

5. Copper:
Energy = 10.0 g × 0.385 J/g °C × 25.0 °C
Energy = 96.25 J

Now, let's rank them in increasing order based on the energy required:

1. Copper - 96.25 J
2. Cast iron - 115 J
3. Stainless steel - 125 J
4. Aluminum - 224.25 J
5. Water - 1046 J

Therefore, the ranking from least to greatest is: Copper, Cast iron, Stainless steel, Aluminum, Water.