The air inside an oven is at a temperature of 400 °F. A turkey inside the oven is in equilibrium with the air inside the oven. Which of the following is false?
a. There is no heat transfer from the air to the turkey, because there is no driving force for heat transfer.
DEUTEROMYCETES or CONIDIAL FUNGI (anamorphs) This is an artificial grouping of about 15,000 species of fungi for which the sexual stage is not known. Only their conidial or asexual reproducing state is known. They are also known as the Fungi Imperfecti, the “imperfectly known fungi”. What fungi are classified as conidial fungi?
Put yourself in the position of an entrepreneur who is developing a new product or service to introduce into the market. Briefly describe the product. Then develop the segmentation, targeting, and positioning strategy for marketing the new product. Be sure to discuss:
Provide justifications, in the form of research, for your decisions and include your textbook and at least two references to credible sources outside of the course and its required readings/media. (The CSU-Global Library is a good place to find credible sources.)
The U.S. health care system evolved between the times of preindustrial to postindustrial America. How have the determinants of health care and associated strategies for improvement changed during this evolution? Include the growth of health care and expansion of legislation and associations in your response.
What mass of solid sodium formate (of MW68.01) must be added to 140 mL of 0.3 mol/Lformic acid (HCOOH) to make a buffer solu-tion having a pH of 3.77? Ka = 0.00018 forHCOOH.Answer in units of g.
Which of the following is true of the various types of anemia?
Select one:
a. In deficiency anemia, where there is a lack of iron or lack of copper, the RBCs are microcytic hypochromic.
b. In deficiency anemia, where there is a lack of iron or lack of copper, the RBCs are normocytic normochromic.
c. In deficiency anemia, where there is a lack of iron or lack of copper, the RBCs are sickle-shaped microcytic.
d. None of these are correct.
Rich, Inc. acquired 30% of Doane Corp.’s voting stock on January 1, 2010 for $400,000. During 2010, Doane earned $160,000 and paid dividends of $100,000. Rich’s 30% interest in Doane gives Rich the ability to exercise significant influence over Doane’s operating and financial policies. During 2011, Doane earned $200,000 and paid dividends of $60,000 on April 1 and October 1. On July 1, 2011, Rich sold half of its stock in Doane for $264,000 cash. What should be the gain on sale of this investment in Rich’s 2011 income statement
· Write a BRIEF history of evolution and Darwin
Assignment 3 ESC1000 Spring 2018
1. Which of the following atoms is an isotope of Potassium-40 (which has 19 protons and 21 neutrons)?
(1) an atom with 21 protons and 19 neutrons
(2) an atom with 20 protons and 20 neutrons
(3) an atom with 19 protons and 20 neutrons
(4) an atom with 40 protons and 40 neutrons
(5) an atom with 22 protons and 18 neutrons
2. What is the atomic mass of a Calcium atom that has 20 protons, 24 neutrons, and 20 electrons?
(1) 44
(2) 20
(3) 24
(4) 40
(5) 48
3. If a mineral has a daughter to parent ration of 7:1 (seven daughter atoms for every one parent atom), how many half-lives have passed since the mineral formed?
(1) 0
(2) 1
(3) 2
(4) 3
(5) 4
4. Refer to Figure 1 on the last page. The boundary L, between sandstone B and underlying rocks is called a(n):
(1) angular unconformity
(2) nonconformity
(3) disconformity
(4) isotopic unconformity
(5) baked contact
5. Refer to Figure 1 on the last page. The boundary O, between conglomerate L and underlying metamorphic rocks (M) is called a(n):
(1) angular unconformity
(2) nonconformity
(3) disconformity
(4) isotopic unconformity
(5) baked contact
6. Refer to Figure 1 on the last page. The boundary J, between the shale G and underlying sandstone B is called a(n):
(1) angular unconformity
(2) nonconformity
(3) disconformity
(4) isotopic unconformity
(5) baked contact
7. Refer to Figure 1 on the last page. Which of the following is true regarding the age dike H?
(1) it is younger than limestone A
(2) it is younger than sandstone B, but older than shale G
(3) it is Paleocene in age
(4) it is younger than sandstone F, but older than shale E
(5) it is older than dike/sill D
8. Refer to Figure 1 on the last page. Which of the following is true regarding the age of motion on fault N?
(1) it is younger than conglomerate I, but older than sandstone B
(2) it is younger than sandstone F, but older than sandstone B
(3) it is younger than dike D, but older than sandstone B
(4) it is younger than metamorphic rocks M, but older than conglomerate I
(5) it is younger than sandstone B, but older than shale G
9. Refer to Figure 1 on the last page. Which of the following is true regarding the age dike/sill D?
(1) it is younger than dike H
(2) it is younger than metamorphic rocks M, but older than shale E
(3) it is younger than metamorphic rocks M, but older than sandstone F
(4) it is Paleocene in age or younger
(5) it is younger than shale E and older than sandstone B
10. Refer to Figure 1 on the last page. Analysis of dike/sill D yielded 14,000 daughter atoms and 2,000 parent atoms. On the basis of this ratio, how many half-lives have passed since the mineral formed?
(1) 1
(2) 2
(3) 3
(4) 4
(5) 5
11. If the isotope from the previous question has a half-life of 25 million years, what is the age of dike/sill D?
(1) 3 million years
(2) 25 million years
(3) 50 million years
(4) 75 million years
(5) 100 million years
12. Refer to Figure 1 on the last page. Place the sequence of events in order from oldest (left) to youngest (right).
(1) M – N – O – I – F – E – C – P – L – D – B – J – G – H – A – K
(2) M – N – O – I – F – E – C – P – L – D – B – J – G – H – K – A
(3) D – M – N – O – I – F – E – C – P – L – B – J – G – A – H – K
(4) M -O – I – N – F – E – C – D – L – B – J – G – A – H – K
(5) M – N – O – I – F – E – C – D – P – L – B – J – G – A – H – K
(6) M – N – O – I – F – E – D – C – L – B – P – J – G – A – H – K
(7) M – N – O – I – F – E – D – C – H – P – L – B – J – G – A – K
(8) M – N – O – I – F – E – D – C – P – L – B – J – G – K – A – H
(9) O – I – M – N – F – E – C – D – P – L – B – J – G – A – H – K
(10) M – N – O – I – F – E – P – C – D – L – B – J – G – A – H – K
Figure 1
This list describes each feature, labeled with letters, in the vertical cross-section shown in Figure 1.
A. Deposition of Oligocene limestone
B. Deposition of Paleocene sandstone
C. Deposition of limestone
D. Intrusion of granite dike and sill (laccolith)
E. Deposition of shale
F. Deposition of sandstone
G. Deposition of Oligocene shale
H. Intrusion basalt dike
I. Deposition of conglomerate
J. Unconformity
K. Erosion to form valley
L. Unconformity
M. Folded & metamorphosis of rocks formed at depth
N. Fault
O. Unconformity
P. Tilting of rock layers (Note that this is not labeled in Figure 1)
Also, you will need to refer to the Geologic time scale Figure 9.16b on page 298 Remember the principles of original horizontality and cross-cutting relationships on page 285 Also, recall the types of unconformities on page 295
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