The luminosity at 10 8 K .

Question

Want to see more full solutions like this?

Answer 1

Question

Chapter 16, Problem 44QP

(a)

To determine

The luminosity at 108K.

(a)

Expert Solution

Answer to Problem 44QP

The luminosity at 108K is 1.8×1013LO.

Explanation of Solution

In terms of solar units, the luminosity law is given by,

L(LO)=R(RO)2T(TO)4

Here, L(LO) is the luminosity in solar units, R(RO) is the radius in solar units and T(TO) is the temperature in solar units.

Radius in solar units is,

R(RO)=(107m)(RO7×108m)=0.014RO

Temperature in solar units is,

T(TO)=T5780 K

Using the expressions for R(RO) and T(TO) in the equation for L(LO),

L(LO)=(0.014)2(T5780 K)4=1.8×10−19T4

Conclusion:

Substitute 108K for T to get L in solar units.

L(LO)=(1.8×10−19)(108K)4LO=1.8×1013LO

Therefore, luminosity at 108K is 1.8×1013LO.

(b)

To determine

The luminosity at 106K.

(b)

Expert Solution

Answer to Problem 44QP

The luminosity at 106K is 1.8×105LO.

Explanation of Solution

From (a), the equation for L(LO) is,

L(LO)=1.8×10−19T4

Conclusion:

Substitute 106K for T to get L in solar units.

L(LO)=(1.8×10−19)(106K)4LO=1.8×105LO

Therefore, luminosity at 106K is 1.8×105LO.

(c)

To determine

The luminosity at 104K.

(c)

Expert Solution

Answer to Problem 44QP

The luminosity at 104K is 1.8×10−3LO.

Explanation of Solution

From (a), the equation for L(LO) is,

L(LO)=1.8×10−19T4

Conclusion:

Substitute 104K for T to get L in solar units.

L(LO)=(1.8×10−19)(104K)4LO=1.8×10−3LO

Therefore, luminosity at 104K is 1.8×10−3LO.

(d)

To determine

The luminosity at 102K.

(d)

Expert Solution

Answer to Problem 44QP

The luminosity at 102K is 1.8×10−11LO.

Explanation of Solution

From (a), the equation for L(LO) is,

L(LO)=1.8×10−19T4

Conclusion:

Substitute 102K for T to get L in solar units.

L(LO)=(1.8×10−19)(102K)4LO=1.8×10−11LO

Therefore, luminosity at 102K is 1.8×10−11LO.

Want to see more full solutions like this?

Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!

Students have asked these similar questions

16

11. A small charged plastic ball is vertically above another charged small ball in a frictionless test tube as shown in the figure. The balls are in equilibrium at a distance d= 2.0 cm apart. If the charge on one ball is tripled, find the new equilibrium distance between the balls in cm and report it to the proper number of significant figures.

12. The electric field at a point 1.3 cm from a small object points toward the object with a strength of 180,000 N/C. Find the object's charge q, in nC to the proper number of significant figures. k = 1/4πε0 = 8.99 × 10^9 N ∙ m^2/C^2

Answer 2

Question

Chapter 16, Problem 44QP

(a)

To determine

The luminosity at 108K.

(a)

Expert Solution

Answer to Problem 44QP

The luminosity at 108K is 1.8×1013LO.

Explanation of Solution

In terms of solar units, the luminosity law is given by,

L(LO)=R(RO)2T(TO)4

Here, L(LO) is the luminosity in solar units, R(RO) is the radius in solar units and T(TO) is the temperature in solar units.

Radius in solar units is,

R(RO)=(107m)(RO7×108m)=0.014RO

Temperature in solar units is,

T(TO)=T5780 K

Using the expressions for R(RO) and T(TO) in the equation for L(LO),

L(LO)=(0.014)2(T5780 K)4=1.8×10−19T4

Conclusion:

Substitute 108K for T to get L in solar units.

L(LO)=(1.8×10−19)(108K)4LO=1.8×1013LO

Therefore, luminosity at 108K is 1.8×1013LO.

(b)

To determine

The luminosity at 106K.

(b)

Expert Solution

Answer to Problem 44QP

The luminosity at 106K is 1.8×105LO.

Explanation of Solution

From (a), the equation for L(LO) is,

L(LO)=1.8×10−19T4

Conclusion:

Substitute 106K for T to get L in solar units.

L(LO)=(1.8×10−19)(106K)4LO=1.8×105LO

Therefore, luminosity at 106K is 1.8×105LO.

(c)

To determine

The luminosity at 104K.

(c)

Expert Solution

Answer to Problem 44QP

The luminosity at 104K is 1.8×10−3LO.

Explanation of Solution

From (a), the equation for L(LO) is,

L(LO)=1.8×10−19T4

Conclusion:

Substitute 104K for T to get L in solar units.

L(LO)=(1.8×10−19)(104K)4LO=1.8×10−3LO

Therefore, luminosity at 104K is 1.8×10−3LO.

(d)

To determine

The luminosity at 102K.

(d)

Expert Solution

Answer to Problem 44QP

The luminosity at 102K is 1.8×10−11LO.

Explanation of Solution

From (a), the equation for L(LO) is,

L(LO)=1.8×10−19T4

Conclusion:

Substitute 102K for T to get L in solar units.

L(LO)=(1.8×10−19)(102K)4LO=1.8×10−11LO

Therefore, luminosity at 102K is 1.8×10−11LO.

Want to see more full solutions like this?

Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!

Answer 3

Question

Chapter 16, Problem 44QP

(a)

To determine

The luminosity at 108K.

(a)

Expert Solution

Answer to Problem 44QP

The luminosity at 108K is 1.8×1013LO.

Explanation of Solution

In terms of solar units, the luminosity law is given by,

L(LO)=R(RO)2T(TO)4

Here, L(LO) is the luminosity in solar units, R(RO) is the radius in solar units and T(TO) is the temperature in solar units.

Radius in solar units is,

R(RO)=(107m)(RO7×108m)=0.014RO

Temperature in solar units is,

T(TO)=T5780 K

Using the expressions for R(RO) and T(TO) in the equation for L(LO),

L(LO)=(0.014)2(T5780 K)4=1.8×10−19T4

Conclusion:

Substitute 108K for T to get L in solar units.

L(LO)=(1.8×10−19)(108K)4LO=1.8×1013LO

Therefore, luminosity at 108K is 1.8×1013LO.

(b)

To determine

The luminosity at 106K.

(b)

Expert Solution

Answer to Problem 44QP

The luminosity at 106K is 1.8×105LO.

Explanation of Solution

From (a), the equation for L(LO) is,

L(LO)=1.8×10−19T4

Conclusion:

Substitute 106K for T to get L in solar units.

L(LO)=(1.8×10−19)(106K)4LO=1.8×105LO

Therefore, luminosity at 106K is 1.8×105LO.

(c)

To determine

The luminosity at 104K.

(c)

Expert Solution

Answer to Problem 44QP

The luminosity at 104K is 1.8×10−3LO.

Explanation of Solution

From (a), the equation for L(LO) is,

L(LO)=1.8×10−19T4

Conclusion:

Substitute 104K for T to get L in solar units.

L(LO)=(1.8×10−19)(104K)4LO=1.8×10−3LO

Therefore, luminosity at 104K is 1.8×10−3LO.

(d)

To determine

The luminosity at 102K.

(d)

Expert Solution

Answer to Problem 44QP

The luminosity at 102K is 1.8×10−11LO.

Explanation of Solution

From (a), the equation for L(LO) is,

L(LO)=1.8×10−19T4

Conclusion:

Substitute 102K for T to get L in solar units.

L(LO)=(1.8×10−19)(102K)4LO=1.8×10−11LO

Therefore, luminosity at 102K is 1.8×10−11LO.

Want to see more full solutions like this?

Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!

Answer 4

Question

Chapter 16, Problem 44QP

(a)

To determine

The luminosity at 108K.

(a)

Expert Solution

Answer to Problem 44QP

The luminosity at 108K is 1.8×1013LO.

Explanation of Solution

In terms of solar units, the luminosity law is given by,

L(LO)=R(RO)2T(TO)4

Here, L(LO) is the luminosity in solar units, R(RO) is the radius in solar units and T(TO) is the temperature in solar units.

Radius in solar units is,

R(RO)=(107m)(RO7×108m)=0.014RO

Temperature in solar units is,

T(TO)=T5780 K

Using the expressions for R(RO) and T(TO) in the equation for L(LO),

L(LO)=(0.014)2(T5780 K)4=1.8×10−19T4

Conclusion:

Substitute 108K for T to get L in solar units.

L(LO)=(1.8×10−19)(108K)4LO=1.8×1013LO

Therefore, luminosity at 108K is 1.8×1013LO.

(b)

To determine

The luminosity at 106K.

(b)

Expert Solution

Answer to Problem 44QP

The luminosity at 106K is 1.8×105LO.

Explanation of Solution

From (a), the equation for L(LO) is,

L(LO)=1.8×10−19T4

Conclusion:

Substitute 106K for T to get L in solar units.

L(LO)=(1.8×10−19)(106K)4LO=1.8×105LO

Therefore, luminosity at 106K is 1.8×105LO.

(c)

To determine

The luminosity at 104K.

(c)

Expert Solution

Answer to Problem 44QP

The luminosity at 104K is 1.8×10−3LO.

Explanation of Solution

From (a), the equation for L(LO) is,

L(LO)=1.8×10−19T4

Conclusion:

Substitute 104K for T to get L in solar units.

L(LO)=(1.8×10−19)(104K)4LO=1.8×10−3LO

Therefore, luminosity at 104K is 1.8×10−3LO.

(d)

To determine

The luminosity at 102K.

(d)

Expert Solution

Answer to Problem 44QP

The luminosity at 102K is 1.8×10−11LO.

Explanation of Solution

From (a), the equation for L(LO) is,

L(LO)=1.8×10−19T4

Conclusion:

Substitute 102K for T to get L in solar units.

L(LO)=(1.8×10−19)(102K)4LO=1.8×10−11LO

Therefore, luminosity at 102K is 1.8×10−11LO.

Want to see more full solutions like this?

Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!

Answer 5

Chapter 16, Problem 44QP

(a)

To determine

The luminosity at 108K.

(a)

Expert Solution

Answer to Problem 44QP

The luminosity at 108K is 1.8×1013LO.

Explanation of Solution

In terms of solar units, the luminosity law is given by,

L(LO)=R(RO)2T(TO)4

Here, L(LO) is the luminosity in solar units, R(RO) is the radius in solar units and T(TO) is the temperature in solar units.

Radius in solar units is,

R(RO)=(107m)(RO7×108m)=0.014RO

Temperature in solar units is,

T(TO)=T5780 K

Using the expressions for R(RO) and T(TO) in the equation for L(LO),

L(LO)=(0.014)2(T5780 K)4=1.8×10−19T4

Conclusion:

Substitute 108K for T to get L in solar units.

L(LO)=(1.8×10−19)(108K)4LO=1.8×1013LO

Therefore, luminosity at 108K is 1.8×1013LO.

(b)

To determine

The luminosity at 106K.

(b)

Expert Solution

Answer to Problem 44QP

The luminosity at 106K is 1.8×105LO.

Explanation of Solution

From (a), the equation for L(LO) is,

L(LO)=1.8×10−19T4

Conclusion:

Substitute 106K for T to get L in solar units.

L(LO)=(1.8×10−19)(106K)4LO=1.8×105LO

Therefore, luminosity at 106K is 1.8×105LO.

(c)

To determine

The luminosity at 104K.

(c)

Expert Solution

Answer to Problem 44QP

The luminosity at 104K is 1.8×10−3LO.

Explanation of Solution

From (a), the equation for L(LO) is,

L(LO)=1.8×10−19T4

Conclusion:

Substitute 104K for T to get L in solar units.

L(LO)=(1.8×10−19)(104K)4LO=1.8×10−3LO

Therefore, luminosity at 104K is 1.8×10−3LO.

(d)

To determine

The luminosity at 102K.

(d)

Expert Solution

Answer to Problem 44QP

The luminosity at 102K is 1.8×10−11LO.

Explanation of Solution

From (a), the equation for L(LO) is,

L(LO)=1.8×10−19T4

Conclusion:

Substitute 102K for T to get L in solar units.

L(LO)=(1.8×10−19)(102K)4LO=1.8×10−11LO

Therefore, luminosity at 102K is 1.8×10−11LO.

Answer 6

Chapter 16, Problem 44QP

(a)

To determine

The luminosity at 108K.

(a)

Expert Solution

Answer to Problem 44QP

The luminosity at 108K is 1.8×1013LO.

Explanation of Solution

In terms of solar units, the luminosity law is given by,

L(LO)=R(RO)2T(TO)4

Here, L(LO) is the luminosity in solar units, R(RO) is the radius in solar units and T(TO) is the temperature in solar units.

Radius in solar units is,

R(RO)=(107m)(RO7×108m)=0.014RO

Temperature in solar units is,

T(TO)=T5780 K

Using the expressions for R(RO) and T(TO) in the equation for L(LO),

L(LO)=(0.014)2(T5780 K)4=1.8×10−19T4

Conclusion:

Substitute 108K for T to get L in solar units.

L(LO)=(1.8×10−19)(108K)4LO=1.8×1013LO

Therefore, luminosity at 108K is 1.8×1013LO.

Answer 7

Chapter 16, Problem 44QP

(a)

To determine

The luminosity at 108K.

Answer 8

(a)

Expert Solution

Answer to Problem 44QP

The luminosity at 108K is 1.8×1013LO.

Answer 9

(a)

Expert Solution

Answer 10

(a)

Expert Solution

Answer 11

Expert Solution

Answer 12

Explanation of Solution

In terms of solar units, the luminosity law is given by,

L(LO)=R(RO)2T(TO)4

Here, L(LO) is the luminosity in solar units, R(RO) is the radius in solar units and T(TO) is the temperature in solar units.

Radius in solar units is,

R(RO)=(107m)(RO7×108m)=0.014RO

Temperature in solar units is,

T(TO)=T5780 K

Using the expressions for R(RO) and T(TO) in the equation for L(LO),

L(LO)=(0.014)2(T5780 K)4=1.8×10−19T4

Conclusion:

Substitute 108K for T to get L in solar units.

L(LO)=(1.8×10−19)(108K)4LO=1.8×1013LO

Therefore, luminosity at 108K is 1.8×1013LO.

Answer 13

(b)

To determine

The luminosity at 106K.

(b)

Expert Solution

Answer to Problem 44QP

The luminosity at 106K is 1.8×105LO.

Explanation of Solution

From (a), the equation for L(LO) is,

L(LO)=1.8×10−19T4

Conclusion:

Substitute 106K for T to get L in solar units.

L(LO)=(1.8×10−19)(106K)4LO=1.8×105LO

Therefore, luminosity at 106K is 1.8×105LO.

Answer 14

(b)

To determine

The luminosity at 106K.

Answer 15

(b)

Expert Solution

Answer to Problem 44QP

The luminosity at 106K is 1.8×105LO.

Answer 16

(b)

Expert Solution

Answer 17

(b)

Expert Solution

Answer 18

Expert Solution

Answer 19

Explanation of Solution

From (a), the equation for L(LO) is,

L(LO)=1.8×10−19T4

Conclusion:

Substitute 106K for T to get L in solar units.

L(LO)=(1.8×10−19)(106K)4LO=1.8×105LO

Therefore, luminosity at 106K is 1.8×105LO.

Answer 20

(c)

To determine

The luminosity at 104K.

(c)

Expert Solution

Answer to Problem 44QP

The luminosity at 104K is 1.8×10−3LO.

Explanation of Solution

From (a), the equation for L(LO) is,

L(LO)=1.8×10−19T4

Conclusion:

Substitute 104K for T to get L in solar units.

L(LO)=(1.8×10−19)(104K)4LO=1.8×10−3LO

Therefore, luminosity at 104K is 1.8×10−3LO.

Answer 21

(c)

To determine

The luminosity at 104K.

Answer 22

(c)

Expert Solution

Answer to Problem 44QP

The luminosity at 104K is 1.8×10−3LO.

Answer 23

(c)

Expert Solution

Answer 24

(c)

Expert Solution

Answer 25

Expert Solution

Answer 26

Explanation of Solution

From (a), the equation for L(LO) is,

L(LO)=1.8×10−19T4

Conclusion:

Substitute 104K for T to get L in solar units.

L(LO)=(1.8×10−19)(104K)4LO=1.8×10−3LO

Therefore, luminosity at 104K is 1.8×10−3LO.

Answer 27

(d)

To determine

The luminosity at 102K.

(d)

Expert Solution

Answer to Problem 44QP

The luminosity at 102K is 1.8×10−11LO.

Explanation of Solution

From (a), the equation for L(LO) is,

L(LO)=1.8×10−19T4

Conclusion:

Substitute 102K for T to get L in solar units.

L(LO)=(1.8×10−19)(102K)4LO=1.8×10−11LO

Therefore, luminosity at 102K is 1.8×10−11LO.

Answer 28

(d)

To determine

The luminosity at 102K.

Answer 29

(d)

Expert Solution

Answer to Problem 44QP

The luminosity at 102K is 1.8×10−11LO.

Answer 30

(d)

Expert Solution

Answer 31

(d)

Expert Solution

Answer 32

Expert Solution

Answer 33

Explanation of Solution

From (a), the equation for L(LO) is,

L(LO)=1.8×10−19T4

Conclusion:

Substitute 102K for T to get L in solar units.

L(LO)=(1.8×10−19)(102K)4LO=1.8×10−11LO

Therefore, luminosity at 102K is 1.8×10−11LO.

Answer 34

Ch. 16.1 - Prob. 16.1CYU Ch. 16.3 - Prob. 16.3CYU Ch. 16.4 - Prob. 16.4CYU Ch. 16.5 - Prob. 16.5CYU Ch. 16 - Prob. 1QP Ch. 16 - Prob. 2QP Ch. 16 - Prob. 3QP Ch. 16 - Prob. 4QP Ch. 16 - Prob. 5QP Ch. 16 - Prob. 6QP

The luminosity at 10 8 K .

Concept explainers

The luminosity at 108K.

Answer to Problem 44QP

Explanation of Solution

The luminosity at 106K.

Answer to Problem 44QP

Explanation of Solution

The luminosity at 104K.

Answer to Problem 44QP

Explanation of Solution

The luminosity at 102K.

Answer to Problem 44QP

Explanation of Solution

Want to see more full solutions like this?

Chapter 16 Solutions