Answer:
Zero
Explanation:
Recall that;
E = q + w
Where;
q = heat, w = work done
When heat is absorbed by the system q is positive
When heat is evolved by the system q is negative
When the system does work, w is negative
When work is done on the system w is positive
Step 1
ΔE1= 60 KJ + 40 KJ = 100KJ
Step 2
ΔE2= (-30 KJ) + (-70 KJ) = (-100) KJ
ΔE1 + ΔE2= 100KJ + (-100) KJ = 0KJ
Answer:
c. carry materials to all parts of the body
Explanation:
The lungs and tissues receive oxygen and nourishment via blood.
Answer:
1. Hubble
2.Aristarchus
3.Galileo
4.Aristotle
5.Kepler
6.Jupiter
7.Mercury
8.Uranus
9.Venus
10.Earth
11. Jupiter and Mars
12. sun
13.D
14. Saturn
15.Gas giants
16.Kuiper Belt and Ceres,Pluto,eris and haumea.
17.pluto
18.Ptolemy's model
19.meteor- a small body of matter from the outer surface that enters the earth's atmosphere.
meteoroid- a small body moving in the solar system that would become a meteor if it enters the earth's atmosphere.
meteorite- a piece of rock or metal that has fallen to the earth's surface from outer space as a meteor.
the relationship is the diagram I drew at the top.
hope this was helpful
According to Bohr's model of the atom, the higher the orbital in which the electrons are found, the higher their energy or excitation state. Therefore, the electrons with the least amount of energy are those at the lowest orbitals, which are closer to the nucleus.
These orbitals are characterized by 4 quantum numbers, namely the principal quantum number (n), orbital angular momentum quantum number (l), the magnetic quantum number (ml), and the electron spin quantum number (ms). The principal quantum number reflects the distance of the electrons from the nucleus with n=1 as the orbital closest to the nucleus. Thus, according to Bohr's model, electrons in the orbital with n=1 have the lowest energy.
