Table of Contents
Power Distributions
1
) Consider a system of 3 particles A, B, and also C. Suppose that 3 devices of power can be dispersed over the 3 particles. Each particle can have no power, one device of power, 2 devices of power, or all 3 devices of power. Think that each of the 10 feasible setups of the 3 systems of power is similarly possible. What is the likelihood that particle A has all 3 systems of power?
( a) 1/10
( b) 2/10
( c) 3/10
( d) 4/10
( e) 5/10
(f) 6/10
2
) Consider a system of 3 particles A, B, and also C. Suppose that 3 systems of power can be dispersed over the 3 particles. Each particle can have no power, one system of power, 2 devices of power, or all 3 devices of power. Presume that each of the 10 feasible setups of the 3 devices of power is similarly likely. What is the chance that particle C has all 3 devices of power?
( a) 1/10
( b) 2/10
( c) 3/10
( d) 4/10
( e) 5/10
(f) 6/10
3
) Consider a system of 3 particles A, B, as well as C. Suppose that 3 systems of power can be dispersed over the 3 particles. Each particle can have no power, one device of power, 2 devices of power, or all 3 systems of power. Think that each of the 10 feasible plans of the 3 devices of power is similarly potential. What is the possibility that particle C has no power?
( a) 1/10
( b) 2/10
( c) 3/10
( d) 4/10
( e) 5/10
(f) 6/10
4
) Consider a system of 3 particles A, B, and also C. Suppose that 3 devices of power can be dispersed over the 3 particles. Each particle can have no power, one device of power, 2 devices of power, or all 3 systems of power. Think that each of the 10 feasible setups of the 3 systems of power is similarly likely. What is the likelihood that particle B has precisely 2 devices of power?
( a) 1/10
( b) 2/10
( c) 3/10
( d) 4/10
( e) 5/10
(f) 6/10
5
) Consider a system that has 2 tantamount particles that can inhabit 3 various power degrees (powers of 1 kJ, 2 kJ and also 3 kJ, specifically). What is the chance that the particles will have a complete power of 3 kJ?
( a) 1/6
( b) 2/6
( c) 3/6
( d) 4/6
( e) 5/6
(f) 6/6
6
) Consider a system of 3 particles A, B, and also C. Suppose that 3 systems of power can be dispersed over the 3 particles. Each particle can have no power, one device of power, 2 systems of power, or all 3 devices of power. Presume that each of the 10 feasible plans of the 3 devices of power is similarly likely. What is the possibility that particle C has some power?
( a) 1/10
( b) 2/10
( c) 3/10
( d) 4/10
( e) 5/10
( f) 6/10
7
) Consider a system of 3 particles A, B, as well as C. Suppose that 3 devices of power can be dispersed over the 3 particles. Each particle can have no power, one system of power, 2 devices of power, or all 3 systems of power. Presume that each of the 10 feasible setups of the 3 devices of power is just as possible. What is the chance that particle C has precisely one device of power?
( a) 1/10
( b) 2/10
( c) 3/10
( d) 4/10
( e) 5/10
(f) 6/10
8
) Consider a system of 3 particles A, B, and also C. Suppose that 3 systems of power can be dispersed over the 3 particles. Each particle can have no power, one system of power, 2 systems of power, or all 3 systems of power. Presume that each of the 10 feasible setups of the 3 devices of power is similarly potential. What is the chance that particle A has some power?
( a) 1/10
( b) 2/10
( c) 3/10
( d) 4/10
( e) 5/10
( f) 6/10
9
) Consider a system of 3 particles A, B, as well as C. Suppose that 3 devices of power can be dispersed over the 3 particles. Each particle can have no power, one system of power, 2 devices of power, or all 3 devices of power. Think that each of the 10 feasible plans of the 3 devices of power is just as possible. What is the possibility that particle A has specifically one system of power?
( a) 1/10
( b) 2/10
( c) 3/10
( d) 4/10
( e) 5/10
(f) 6/10
10
) Consider a system of 3 particles A, B, as well as C. Suppose that 3 systems of power can be dispersed over the 3 particles. Each particle can have no power, one system of power, 2 devices of power, or all 3 devices of power. Think that each of the 10 feasible plans of the 3 systems of power is similarly likely. What is the likelihood that any kind of 2 of the particles have no power?
( a) 1/10
( b) 2/10
( c) 3/10
( d) 4/10
( e) 5/10
(f) 6/10
11
) Consider a system that has 2 equivalent particles that can inhabit 3 various power degrees (powers of 1 kJ, 2 kJ as well as 3 kJ, specifically). What is the possibility that the particles will have an overall power of 2 kJ?
( a) 1/6
( b) 2/6
( c) 3/6
( d) 4/6
( e) 5/6
(f) 6/6
12
) Consider a system that has 2 equivalent particles that can inhabit 3 various power degrees (powers of 1 kJ, 2 kJ and also 3 kJ, specifically). What is the chance that the particles will have a complete power of 4 kJ?
( a) 1/6
( b) 2/6
( c) 3/6
( d) 4/6
( e) 5/6
(f) 6/6
13
) Consider a system that has 2 equivalent particles that can inhabit 3 various power degrees (powers of 1 kJ, 2 kJ as well as 3 kJ, specifically). What is the likelihood that the particles will have an overall power of 5 kJ?
( a) 1/6
( b) 2/6
( c) 3/6
( d) 4/6
( e) 5/6
(f) 6/6
14
) Consider a system that has 2 identical particles that can inhabit 3 various power degrees (powers of 1 kJ, 2 kJ as well as 3 kJ, specifically). What is one of the most likely total amount power of the system?
( a) 1 kJ
( b) 2 kJ
( c) 3 kJ
( d) 4 kJ
( e) 5 kJ
(f) 6 kJ
15
) Consider a system of 3 particles A, B, as well as C. Suppose that 3 devices of power can be dispersed over the 3 particles. Each particle can have no power, one device of power, 2 systems of power, or all 3 devices of power. Think that each of the 10 feasible setups of the 3 systems of power is similarly likely. What is the possibility that any kind of one particle has every one of the power?
( a) 1/10
( b) 2/10
( c) 3/10
( d) 4/10
( e) 5/10
(f) 6/10
16
) Consider a system of 3 particles A, B, as well as C. Suppose that 3 systems of power can be dispersed over the 3 particles. Each particle can have no power, one device of power, 2 systems of power, or all 3 systems of power. Think that each of the 10 feasible plans of the 3 devices of power is just as possible. What is the possibility that particle B has no power?
( a) 1/10
( b) 2/10
( c) 3/10
( d) 4/10
( e) 5/10
(f) 6/10
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