SPU 25 Energy and Climate: Vision for the Future, Spring
2018
Homework Set #2 Energy Basics
In order to understand Earth’s climate and how it is
influenced by our energy choices, it is important to
understand basic principles of energy, heat, temperature,
and water. In this assignment, you’ll also see how
the carbon cycle (both natural and anthropogenic) is
intimately tied to energy and climate. You will visit a few
websites in order to expose you to some of the energy and
climate data available to you. [40 points]
Conceptual and quantitative problems. You will only receive
credit if you show all your work and write
legibly.
I. Defining energy
1. Energy is the ability to do _________________. It is
neither ______________________ nor ______________________, but
changes ____________________. [3 point]
2. Conceptualizing Energy Units. In 2013, the New York Times
printed a how-to for a “7-Minute
Workout.” It has been estimated that this workout burns
approximately 75 kilocalories over the 7
minutes.
What is the rate of energy usage during the workout? Report
your answer in Watts. [2 points]
II. Properties of Water
3. Label the phases of water in the following figure. [3
point]
4. True or False. Warmer air can hold more water vapor. [2
point]
III. Latent and Sensible Heat
5. _______________________heat is required to change the
temperature of water. _______________________ heat is
involved in changing the phase of water. [2 point]
IV. Heat Capacity and Specific Heat (Heat capacity per unit
mass)
6. Water, air, and land heat up at different rates, which is
evident when you jump from a hot concrete
pool deck into a pool in the summer. These differences are
very important in global weather patterns
and the distribution of energy around the planet. The
specific heats and densities are listed in the table
below.
a. How much energy is required to raise the temperature of 1
cubic meter of water, air, and land by
10°C? Show your work and report your answers in Joules in
the table below. [3 points]
Material Density at 20°C, sea level (kg/m3)
Specific Heat Capacity (Joules/kg °C)
Energy required to raise temp of 1 m3 by 10°C (Joules)
Solar heating time (hours)
Water 998.2 4182
Air 1.2041 1005
Land* 3000 850
*Based on a range of values for different types of rock,
just for rough estimates.
b. In the northern hemisphere, are surface winds (think
about the pressure differences that drive
winds) more likely to blow from the land toward the ocean in
June or in November? Why? Use a
diagram to explain your answer. [3 points]
V. Carbon Cycle
7. The process by which energy is stored in organic carbon
compounds is _______________________________.
The reverse process, in which energy is released from
organic carbon compounds is called
___________________________________________. [2 point]
8. Using the carbon cycle figure below, calculate the
average residence time of carbon in each of the
following reservoirs. Report your answers in years.
a. Define residence time using an equation and in
your own words. [2 point]
b. Deep ocean [1 points]
c. Soil [1 points]
d. Atmosphere [1 points]
e. Sediments [1 points]
9. Understanding carbon storage and release
a. The carbon in fossil fuels (coal, oil, and natural gas)
belongs to which reservoir? [2 point]
b. What is the role of plate tectonics in returning carbon
from the sedimentary reservoir to the
atmosphere? [2 point]
c. What is the role of humans in returning carbon from the
sedimentary reservoir to the atmosphere?
[2 point]
10. Navigate to the NOAA Carbon Tracker website:
https://www.esrl.noaa.gov/gmd/ccgg/carbontracker/. a. Read the Global CO2
Budget section and study Figure 1. What are the two major sources and two
major sinks shown in the figure? [2 points]
b. What is proposed as the cause for the decrease in fossil
fuel CO2 emissions in 2008 and 2009? Explain why this is the case. [2 point]
11. The combustion of jet fuel (and other fossil fuels) can
be simplified to the following equation:
CH2O (organic carbon compound) + O2 ? CO2 + H2O
a. Visit the following website:
https://www.eia.gov/environment/emissions/co2_vol_mass.cfm and
identify the amount of CO2 (in pounds AND kilograms)
produced per gallon of jet fuel burned.
(While you are at the site, compare the emissions from other
fuel sources!) [2 point]
b. A gallon of fuel weighs less than the amount of CO2 it
produces, which you found in the previous
question. How is this possible? (Hint: look at the equation
above.) [2 point]
https://www.esrl.noaa.gov/gmd/ccgg/carbontracker/
https://www.eia.gov/environment/emissions/co2_vol_mass.cfm
12. BONUS: Visit the NASA Visualization Studio website:
https://svs.gsfc.nasa.gov/. Here you will find hundreds of fascinating
animations and data representations relevant to climate, energy, and many other
things that can be tracked by satellites. Use the search box or click on
galleries to find a visualization that is particularly interesting to you and
relevant to something we are learning in SPU 25. [2 BONUS points]
Visualization
Title:________________________________________________________________ ____________________
How is it relevant, and why is it interesting to you?
https://svs.gsfc.nasa.gov/
