Can you recommend a frost hardy, water tolerant, fastigiate tree climate Zone 7?

Physics Question: 7.31 kg of water at 0°C onto a fruit tree. How much heat is released by the water?

To help prevent frost damage, fruit growers sometimes protect their crop by spraying it with water when overnight temperatures are expected to go below the freezing mark. When the water turns to ice during the night, heat is released into the plants, thereby giving them a measure of protection against the falling temperature. Suppose a grower sprays 7.31 kg of water at 0°C onto a fruit tree. (a) How much heat is released by the water when it freezes? (b) How much would the temperature of a 140-kg tree rise if it absorbed the heat released in part (a)? Assume that the specific heat capacity of the tree is 2.5 x 103 J/(kg C°) and that no phase change occurs within the tree itself.
Answer:

Since there is a phase change, this is a heat of fusion problem. Heat Released = mass of water x heat of fusion of water The heat of fusion of water is 334 kJ/kg (wikipedia article), so: Heat released = 2441.54 kJ If the tree absorbed all of that heat, then we use the following equation change in energy = mass x specific heat capacity x change in temperature So (be careful of units for energy): 2441540 J = 140 kg x 2.5x10^3 J/kg-C x change in temperature The change in temperature is 6.98 C.

tjp10391 at Yahoo! Answers Visit the source

Was this solution helpful to you?

Other answers

Since there is a phase change, this is a heat of fusion problem. Heat Released = mass of water x heat of fusion of water The heat of fusion of water is 334 kJ/kg (wikipedia article), so: Heat released = 2441.54 kJ If the tree absorbed all of that heat, then we use the following equation change in energy = mass x specific heat capacity x change in temperature So (be careful of units for energy): 2441540 J = 140 kg x 2.5x10^3 J/kg-C x change in temperature The change in temperature is 6.98 C.

Aaron

Objects A and B have the same mass of 4.7 kg and are at their melting points. They melt when 3.6 × 104 J of heat is added to A and when 11 × 104 J is added to B. (a), (b) Determine the latent heat of fusion for the substance from which each object is made. (c) Find the heat required to melt object A when its mass is 9.4 kg. (

aisha

Related Q & A:

Is there a limit to how much concise information a human can learn adequately?Best solution by Yahoo! Answers
How much bacteria growth occurs in reused water bottles?Best solution by Yahoo! Answers
If Wikipedia.com were a private company how much would it be worth?Best solution by Quora
How much energy is released when 2.8 kg of diethyl ether freezes?Best solution by Yahoo! Answers
Where to buy a trampoline and how much it would be?Best solution by Yahoo! Answers

Just Added Q & A:

How many active mobile subscribers are there in China?Best solution by Quora
How to find the right vacation?Best solution by bookit.com
How To Make Your Own Primer?Best solution by thekrazycouponlady.com
How do you get the domain & range?Best solution by ChaCha
How do you open pop up blockers?Best solution by Yahoo! Answers

For every problem there is a solution! Proved by Solucija.

Got an issue and looking for advice?
Ask Solucija to search every corner of the Web for help.
Get workable solutions and helpful tips in a moment.

Just ask Solucija about an issue you face and immediately get a list of ready solutions, answers and tips from other Internet users. We always provide the most suitable and complete answer to your question at the top, along with a few good alternatives below.