2. Imagine a universe in which the value of the ms quantum number can be +1...
2. Imagine a universe in which the value of the ms quantum number can be +1 /2, 0 and - 1 /2 instead of just the Fermion values of ±1 /2. Assuming that all the other quantum numbers can take only the values possible in our world and that the Pauli exclusion principle applies, give the following:
(a). The new electronic configuration of nitrogen.
(b). The electronic configuration for the element below nitrogen in the new periodic table.
(c). The atomic numbers of the first three noble gases in the new periodic table.
Homework Answers
Add Answer to:
2. Imagine a universe in which the value of the ms quantum
number can be +1...
Cap Resources Suppose you take a trip to a distant universe and find that the periodic table there is derived from...
Cap Resources Suppose you take a trip to a distant universe and find that the periodic table there is derived from an arrangement of quantum numbers different from the one on Earth. The rules in that universe are: 1. principal quantum number n 1,2,... (as on Earth); 2. angular momentum quantum number 0,1,2,... ,n- 1 (as on Earth); 3. magnetic quantum number me = 0, 1,2, ...,l (only positive integers up to and including are allowed); 4. spin quantum number...
Suppose you take a trip to a distant universe and find that the periodic table there...
Suppose you take a trip to a distant universe and find that the periodic table there is derived from an arrangement of quantum mumbers different from the one on Earth. The rules in that universe are: 1. principal quantum number n = 1,2,... (as on Earth); 2. angular momentum quantum number = 0,1,2,...,n-1 (as on Earth); 3. magnetic quantum number me = 0,1,2,..., f (only positive integers up to and including are allowed); 4. spin quantum number m = -1,0,...
Suppose you take a trip to a distant universe and find that the periodic table there...
Suppose you take a trip to a distant universe and find that the periodic table there is derived from an arrangement of quantum numbers different from the one on Earth. The rules in that universe are: 1. principal quantum number n = 1, 2, . . . (as on Earth); 2. angular momentum quantum number l = 0, 1, 2,. . . , n – 1 (as on Earth); 3. magnetic quantum number ml = 0, 1, 2, . ....
IL Short Answer 1. Imagine an alternate universe in which space unicoms and neon pegasi (the...
IL Short Answer 1. Imagine an alternate universe in which space unicoms and neon pegasi (the plural form of pegasus) exist. In this world, the value of the angular momentum quantum number. I. can have the values / -0 to n. Assur alues to n. Assuming that all other quantum numbers can take only the possible values in our world and that all of the other rules of quantum mechanics apply (including the Pauli Exclusion Principle). A. Sketch the shape...
The last question is what is the atomic number of the second noble gas? Suppose you...
The last question is what is
the atomic number of the second noble gas?
Suppose you take a trip to a distant universe and find that the periodic table there is derived from an arrangement of quantum numbers different from the one on Earth. The rules in that universe are: 1. principal quantum number n = 1,2,... (as on Earth); 2. angular momentum quantum number / = 0,1,2,...,n - 1 (as on Earth); 3. magnetic quantum number me = 0,1,2,...,f...
The rule for the ms quantum number is that it can only be + ½ and...
The rule for the ms quantum number is that it can only be + ½ and – ½. In other words, electrons can only have two possible spins. The shape of the periodic table and the resulting chemical bonding depend on the electron configurations predicted by these quantum numbers. Imagine what the periodic would look like if ms could have three values, + ½ and – ½ and 0. In other words, electrons can now have three spins. What would...
Match the following correctly principal quantum number, n=12.3 Al=0, 1, 2, 3, 4 B. designates siz...
Match the following correctly principal quantum number, n=12.3 Al=0, 1, 2, 3, 4 B. designates size and energy C. s and p electrons outside noble gas or angular momentum quantum number, l-0 to (n-1) pseudo-noble gas core, involved in chemical reactions , p, d, f, g-which numbers? magnetic quantum number, m,--l to+1 spin quantum number m s=+1/2 or-1/2 Pauli Exclusion principle Aufbau Principle Hund's Rule pseudo-noble gas core D, no 2 electrons in an atom have the same 4 quantum...
Match the following correctly principal quantum number, n=12.3 Al=0, 1, 2, 3, 4 B. designates size...
Match the following correctly principal quantum number, n=12.3 Al=0, 1, 2, 3, 4 B. designates size and energy C. s and p electrons outside noble gas or angular momentum quantum number, l-0 to (n-1) pseudo-noble gas core, involved in chemical reactions , p, d, f, g-which numbers? magnetic quantum number, m,--l to+1 spin quantum number m s=+1/2 or-1/2 Pauli Exclusion principle Aufbau Principle Hund's Rule pseudo-noble gas core D, no 2 electrons in an atom have the same 4 quantum...
1/ Explain how you determine and write the complete electronic configuration of nitrogen (Z = 7)....
1/ Explain how you determine and write the complete electronic configuration of nitrogen (Z = 7). In your response, highlight the following concepts and principles. a/ . The configuration written by layers and sublayers (1s2 2s2 …) b. The use of quantum dots c/. The Pauli exclusion principle d/. Hund's rule e. Aufbau's principle f/. Quantum numbers for each of the seven electrons
3) If given the following quantum numbers, which element(s) do they likely refer to? (Assuming thot...
3) If given the following quantum numbers, which element(s) do they likely refer to? (Assuming thot these quantum numbers describe the volence electrons in the element) Complete the table by writing only the symbol of the possible elements Possible Elements 0 4) Suppose that an atom fills its orbitals as shown: 1s 2s 2p Such an electron configuration illustrates which of the following rules? Hund's rule B) Aufbau principle C) Bohr model D) Pauli Exclusion principle and mJ tat best...
Cap Resources Suppose you take a trip to a distant universe and find that the periodic table there is derived from an arrangement of quantum numbers different from the one on Earth. The rules in that universe are: 1. principal quantum number n 1,2,... (as on Earth); 2. angular momentum quantum number 0,1,2,... ,n- 1 (as on Earth); 3. magnetic quantum number me = 0, 1,2, ...,l (only positive integers up to and including are allowed); 4. spin quantum number...
Suppose you take a trip to a distant universe and find that the periodic table there is derived from an arrangement of quantum mumbers different from the one on Earth. The rules in that universe are: 1. principal quantum number n = 1,2,... (as on Earth); 2. angular momentum quantum number = 0,1,2,...,n-1 (as on Earth); 3. magnetic quantum number me = 0,1,2,..., f (only positive integers up to and including are allowed); 4. spin quantum number m = -1,0,...
IL Short Answer 1. Imagine an alternate universe in which space unicoms and neon pegasi (the plural form of pegasus) exist. In this world, the value of the angular momentum quantum number. I. can have the values / -0 to n. Assur alues to n. Assuming that all other quantum numbers can take only the possible values in our world and that all of the other rules of quantum mechanics apply (including the Pauli Exclusion Principle). A. Sketch the shape...
The last question is what is
the atomic number of the second noble gas?
Suppose you take a trip to a distant universe and find that the periodic table there is derived from an arrangement of quantum numbers different from the one on Earth. The rules in that universe are: 1. principal quantum number n = 1,2,... (as on Earth); 2. angular momentum quantum number / = 0,1,2,...,n - 1 (as on Earth); 3. magnetic quantum number me = 0,1,2,...,f...
Match the following correctly principal quantum number, n=12.3 Al=0, 1, 2, 3, 4 B. designates size and energy C. s and p electrons outside noble gas or angular momentum quantum number, l-0 to (n-1) pseudo-noble gas core, involved in chemical reactions , p, d, f, g-which numbers? magnetic quantum number, m,--l to+1 spin quantum number m s=+1/2 or-1/2 Pauli Exclusion principle Aufbau Principle Hund's Rule pseudo-noble gas core D, no 2 electrons in an atom have the same 4 quantum...
Match the following correctly principal quantum number, n=12.3 Al=0, 1, 2, 3, 4 B. designates size and energy C. s and p electrons outside noble gas or angular momentum quantum number, l-0 to (n-1) pseudo-noble gas core, involved in chemical reactions , p, d, f, g-which numbers? magnetic quantum number, m,--l to+1 spin quantum number m s=+1/2 or-1/2 Pauli Exclusion principle Aufbau Principle Hund's Rule pseudo-noble gas core D, no 2 electrons in an atom have the same 4 quantum...
3) If given the following quantum numbers, which element(s) do they likely refer to? (Assuming thot these quantum numbers describe the volence electrons in the element) Complete the table by writing only the symbol of the possible elements Possible Elements 0 4) Suppose that an atom fills its orbitals as shown: 1s 2s 2p Such an electron configuration illustrates which of the following rules? Hund's rule B) Aufbau principle C) Bohr model D) Pauli Exclusion principle and mJ tat best...
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