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CBSE XII  |  PHYSICS 
Sample Paper – 2 Solution 
 
     
CBSE Board 
Class XII – Physics 
Sample Paper – 2 Solution 
 
 
1. Since the current does not obey triangular law of vector addition.   
 
2. The current induced in the coil will oppose the approach of magnet, so nearer face of 
coil will act as north pole. Therefore on viewing from the magnet side the current in the 
coil will be anticlockwise. 
  
3. In forward bias the current is represented by  
         
0
B
eV
i i exp( 1)
2k T
?? 
      Where
0
i is called reverse saturation current, V is voltage across the diode, 
B
k is 
Boltzmann constant.  
 
4. All electromagnetic waves travel in vacuum with same speed.  
        
infrared
ultraviolet
Ratio = =1
c
c
  
 
5. The size of the object will be magnified by a factor of  
        
? ?
o
e
f 60
M 12
f5
? ? ? ? ? ?   
 
6. Nuclear density is independent of mass number, so ratio of nuclear densities is 1 : 1.                
  
7. As the voltage of a. c. power transmitted from one station to another is very large, the 
magnitude of the current is very low. Therefore, the power loss is reduced in 
transmission of power as the power loss is given by 
2
P i R ? .  
 
8. Because at absolute zero temperature semiconductor behaves as insulator. Therefore 
semiconductor devices do not work at absolute zero temperature. 
  
9. Torque pEsin ? ? ?  
         
9 4 1 o
C p 4 10 m, E 5 10 NC , 30
??
? ? ? ? ? ?  
         
9 4o
sin 4 10 5 10 30
?
? ? ? ? ? ? ?  
           
4
10 Nm
?
??
 
 
  
Page 2


  
 
CBSE XII  |  PHYSICS 
Sample Paper – 2 Solution 
 
     
CBSE Board 
Class XII – Physics 
Sample Paper – 2 Solution 
 
 
1. Since the current does not obey triangular law of vector addition.   
 
2. The current induced in the coil will oppose the approach of magnet, so nearer face of 
coil will act as north pole. Therefore on viewing from the magnet side the current in the 
coil will be anticlockwise. 
  
3. In forward bias the current is represented by  
         
0
B
eV
i i exp( 1)
2k T
?? 
      Where
0
i is called reverse saturation current, V is voltage across the diode, 
B
k is 
Boltzmann constant.  
 
4. All electromagnetic waves travel in vacuum with same speed.  
        
infrared
ultraviolet
Ratio = =1
c
c
  
 
5. The size of the object will be magnified by a factor of  
        
? ?
o
e
f 60
M 12
f5
? ? ? ? ? ?   
 
6. Nuclear density is independent of mass number, so ratio of nuclear densities is 1 : 1.                
  
7. As the voltage of a. c. power transmitted from one station to another is very large, the 
magnitude of the current is very low. Therefore, the power loss is reduced in 
transmission of power as the power loss is given by 
2
P i R ? .  
 
8. Because at absolute zero temperature semiconductor behaves as insulator. Therefore 
semiconductor devices do not work at absolute zero temperature. 
  
9. Torque pEsin ? ? ?  
         
9 4 1 o
C p 4 10 m, E 5 10 NC , 30
??
? ? ? ? ? ?  
         
9 4o
sin 4 10 5 10 30
?
? ? ? ? ? ? ?  
           
4
10 Nm
?
??
 
 
  
  
 
CBSE XII  |  PHYSICS 
Sample Paper – 2 Solution 
 
     
10. Resistance 
2
R
Ar
??
??
?
  
New radius r ' r 2 ?  
New length '4 ? 
           ?New resistance 
? ?
? ?
1
1
' 2 2 2
/4
RR
rr
r / 2
?
??
? ? ? ?
??
?
  
 Resistance of the wire will remain unchanged. 
 
11. The fringe width in Young’s double slit experiment comes out to be 
D
d
?
?? , where D is 
the distance between slits and screen, d is slit width and ? is wavelength of light used.                   
  
If ? is small and d is large, then the fringe width of interference pattern becomes so 
small that interference pattern becomes non-observable.   
Therefore Young’s double slit experiment the slit size is taken of the order of the 
wavelength of light used.  
 
12.  The magnetization of ferromagnetic materials depends both on the applied magnetic 
field and also on the history of magnetization (i. e., how many cycles of magnetization it 
has gone through etc.)  
In other words, the value of magnetization is a record or memory of its cycles of 
magnetization. Since information bits can be made to correspond to these cycles. 
Therefore ferromagnetic materials which show hysteresis loop are used in memory 
devices.         1 
 
13. Wavelength 
8
5
12
c 3 10
5 10 m
6 10
?
?
?
? ? ? ? ?
?
  
This wavelength corresponds to infrared waves.  
Applications of infrared waves: 
(i) They are used in green houses to warm the plants.  
(ii) They are used in taking photographs during fogs.  
 
14. Given that 
Refractive index of lens material with respect to air 
l
n = 1.5 
Focal length of lens in air 
air
f = 18 cm 
Refractive index of water 
w
n = 4 / 3 
Since,  
     
12
12
1 1 1
( n 1)( )
f R R
? ? ? 
1
2
 
         For air medium 
Page 3


  
 
CBSE XII  |  PHYSICS 
Sample Paper – 2 Solution 
 
     
CBSE Board 
Class XII – Physics 
Sample Paper – 2 Solution 
 
 
1. Since the current does not obey triangular law of vector addition.   
 
2. The current induced in the coil will oppose the approach of magnet, so nearer face of 
coil will act as north pole. Therefore on viewing from the magnet side the current in the 
coil will be anticlockwise. 
  
3. In forward bias the current is represented by  
         
0
B
eV
i i exp( 1)
2k T
?? 
      Where
0
i is called reverse saturation current, V is voltage across the diode, 
B
k is 
Boltzmann constant.  
 
4. All electromagnetic waves travel in vacuum with same speed.  
        
infrared
ultraviolet
Ratio = =1
c
c
  
 
5. The size of the object will be magnified by a factor of  
        
? ?
o
e
f 60
M 12
f5
? ? ? ? ? ?   
 
6. Nuclear density is independent of mass number, so ratio of nuclear densities is 1 : 1.                
  
7. As the voltage of a. c. power transmitted from one station to another is very large, the 
magnitude of the current is very low. Therefore, the power loss is reduced in 
transmission of power as the power loss is given by 
2
P i R ? .  
 
8. Because at absolute zero temperature semiconductor behaves as insulator. Therefore 
semiconductor devices do not work at absolute zero temperature. 
  
9. Torque pEsin ? ? ?  
         
9 4 1 o
C p 4 10 m, E 5 10 NC , 30
??
? ? ? ? ? ?  
         
9 4o
sin 4 10 5 10 30
?
? ? ? ? ? ? ?  
           
4
10 Nm
?
??
 
 
  
  
 
CBSE XII  |  PHYSICS 
Sample Paper – 2 Solution 
 
     
10. Resistance 
2
R
Ar
??
??
?
  
New radius r ' r 2 ?  
New length '4 ? 
           ?New resistance 
? ?
? ?
1
1
' 2 2 2
/4
RR
rr
r / 2
?
??
? ? ? ?
??
?
  
 Resistance of the wire will remain unchanged. 
 
11. The fringe width in Young’s double slit experiment comes out to be 
D
d
?
?? , where D is 
the distance between slits and screen, d is slit width and ? is wavelength of light used.                   
  
If ? is small and d is large, then the fringe width of interference pattern becomes so 
small that interference pattern becomes non-observable.   
Therefore Young’s double slit experiment the slit size is taken of the order of the 
wavelength of light used.  
 
12.  The magnetization of ferromagnetic materials depends both on the applied magnetic 
field and also on the history of magnetization (i. e., how many cycles of magnetization it 
has gone through etc.)  
In other words, the value of magnetization is a record or memory of its cycles of 
magnetization. Since information bits can be made to correspond to these cycles. 
Therefore ferromagnetic materials which show hysteresis loop are used in memory 
devices.         1 
 
13. Wavelength 
8
5
12
c 3 10
5 10 m
6 10
?
?
?
? ? ? ? ?
?
  
This wavelength corresponds to infrared waves.  
Applications of infrared waves: 
(i) They are used in green houses to warm the plants.  
(ii) They are used in taking photographs during fogs.  
 
14. Given that 
Refractive index of lens material with respect to air 
l
n = 1.5 
Focal length of lens in air 
air
f = 18 cm 
Refractive index of water 
w
n = 4 / 3 
Since,  
     
12
12
1 1 1
( n 1)( )
f R R
? ? ? 
1
2
 
         For air medium 
  
 
CBSE XII  |  PHYSICS 
Sample Paper – 2 Solution 
 
     
       
12
1 1 1
(1.5 1)( )
18 RR
? ? ?  …… (1)       
        For water medium 
       
m 1 2
1 1.5 1 1
( 1)( )
f 4 / 3 R R
? ? ?  …… (2)      
        Dividing (1) by (2) and simplifying, we get 
           
m
f = + 72 cm 
         Therefore change in focal length = 72 - 18 = 54 cm.     
 
 
15. Capacitance of parallel plate capacitor 
o
A
CA
d
?
?
?      
Plate area of 
2
C is double to that of 
1 2 1
C ,thus, C 2C . ? 
Slope of q – V graph ??
q
C
V
         
As slope of A is greater than slope of B, so A corresponds to larger capacitance, i.e., 
2
and CB to smaller capacitance, i.e.,
1
C .  
 
16. According to Einstein, when a photon of incident light strikes on a bound electron of 
metal, its energy is used in two ways.  
(i) In overcoming work function of metal to free metallic electron. 
(ii) In imparting kinetic energy to this freed electron. 
         i.e.,
k
h w E ? ? ?  
      When 
k0
E 0, ? ? ? ? (threshold frequency), then 
      
0
0
h w 0
wh
? ? ?
??
  
     Therefore, 
0k
h h E ? ? ? ? 
? ?
0 k
E h v v ??  
So, as the frequency of incident radiation ? increases the max. KE of photoelectrons also 
increases.      OR 
 
From Einstein’s photoelectric equation 
 
k0
E h h ? ? ? ? 
 
0
eV h h ? ? ? ? (V = stopping potential)    
0
hh
V
ee
? ? ? ?   
 
 
 
Page 4


  
 
CBSE XII  |  PHYSICS 
Sample Paper – 2 Solution 
 
     
CBSE Board 
Class XII – Physics 
Sample Paper – 2 Solution 
 
 
1. Since the current does not obey triangular law of vector addition.   
 
2. The current induced in the coil will oppose the approach of magnet, so nearer face of 
coil will act as north pole. Therefore on viewing from the magnet side the current in the 
coil will be anticlockwise. 
  
3. In forward bias the current is represented by  
         
0
B
eV
i i exp( 1)
2k T
?? 
      Where
0
i is called reverse saturation current, V is voltage across the diode, 
B
k is 
Boltzmann constant.  
 
4. All electromagnetic waves travel in vacuum with same speed.  
        
infrared
ultraviolet
Ratio = =1
c
c
  
 
5. The size of the object will be magnified by a factor of  
        
? ?
o
e
f 60
M 12
f5
? ? ? ? ? ?   
 
6. Nuclear density is independent of mass number, so ratio of nuclear densities is 1 : 1.                
  
7. As the voltage of a. c. power transmitted from one station to another is very large, the 
magnitude of the current is very low. Therefore, the power loss is reduced in 
transmission of power as the power loss is given by 
2
P i R ? .  
 
8. Because at absolute zero temperature semiconductor behaves as insulator. Therefore 
semiconductor devices do not work at absolute zero temperature. 
  
9. Torque pEsin ? ? ?  
         
9 4 1 o
C p 4 10 m, E 5 10 NC , 30
??
? ? ? ? ? ?  
         
9 4o
sin 4 10 5 10 30
?
? ? ? ? ? ? ?  
           
4
10 Nm
?
??
 
 
  
  
 
CBSE XII  |  PHYSICS 
Sample Paper – 2 Solution 
 
     
10. Resistance 
2
R
Ar
??
??
?
  
New radius r ' r 2 ?  
New length '4 ? 
           ?New resistance 
? ?
? ?
1
1
' 2 2 2
/4
RR
rr
r / 2
?
??
? ? ? ?
??
?
  
 Resistance of the wire will remain unchanged. 
 
11. The fringe width in Young’s double slit experiment comes out to be 
D
d
?
?? , where D is 
the distance between slits and screen, d is slit width and ? is wavelength of light used.                   
  
If ? is small and d is large, then the fringe width of interference pattern becomes so 
small that interference pattern becomes non-observable.   
Therefore Young’s double slit experiment the slit size is taken of the order of the 
wavelength of light used.  
 
12.  The magnetization of ferromagnetic materials depends both on the applied magnetic 
field and also on the history of magnetization (i. e., how many cycles of magnetization it 
has gone through etc.)  
In other words, the value of magnetization is a record or memory of its cycles of 
magnetization. Since information bits can be made to correspond to these cycles. 
Therefore ferromagnetic materials which show hysteresis loop are used in memory 
devices.         1 
 
13. Wavelength 
8
5
12
c 3 10
5 10 m
6 10
?
?
?
? ? ? ? ?
?
  
This wavelength corresponds to infrared waves.  
Applications of infrared waves: 
(i) They are used in green houses to warm the plants.  
(ii) They are used in taking photographs during fogs.  
 
14. Given that 
Refractive index of lens material with respect to air 
l
n = 1.5 
Focal length of lens in air 
air
f = 18 cm 
Refractive index of water 
w
n = 4 / 3 
Since,  
     
12
12
1 1 1
( n 1)( )
f R R
? ? ? 
1
2
 
         For air medium 
  
 
CBSE XII  |  PHYSICS 
Sample Paper – 2 Solution 
 
     
       
12
1 1 1
(1.5 1)( )
18 RR
? ? ?  …… (1)       
        For water medium 
       
m 1 2
1 1.5 1 1
( 1)( )
f 4 / 3 R R
? ? ?  …… (2)      
        Dividing (1) by (2) and simplifying, we get 
           
m
f = + 72 cm 
         Therefore change in focal length = 72 - 18 = 54 cm.     
 
 
15. Capacitance of parallel plate capacitor 
o
A
CA
d
?
?
?      
Plate area of 
2
C is double to that of 
1 2 1
C ,thus, C 2C . ? 
Slope of q – V graph ??
q
C
V
         
As slope of A is greater than slope of B, so A corresponds to larger capacitance, i.e., 
2
and CB to smaller capacitance, i.e.,
1
C .  
 
16. According to Einstein, when a photon of incident light strikes on a bound electron of 
metal, its energy is used in two ways.  
(i) In overcoming work function of metal to free metallic electron. 
(ii) In imparting kinetic energy to this freed electron. 
         i.e.,
k
h w E ? ? ?  
      When 
k0
E 0, ? ? ? ? (threshold frequency), then 
      
0
0
h w 0
wh
? ? ?
??
  
     Therefore, 
0k
h h E ? ? ? ? 
? ?
0 k
E h v v ??  
So, as the frequency of incident radiation ? increases the max. KE of photoelectrons also 
increases.      OR 
 
From Einstein’s photoelectric equation 
 
k0
E h h ? ? ? ? 
 
0
eV h h ? ? ? ? (V = stopping potential)    
0
hh
V
ee
? ? ? ?   
 
 
 
  
 
CBSE XII  |  PHYSICS 
Sample Paper – 2 Solution 
 
     
Thus,  vs V ? graph is a straight line of form y mx c ?? and the slope of graph is 
h
m
e
? . 
   
 
17. (i)According to Gauss’s law electric flux through S 1   
 and 
 
1
0
2
00
1
2
1
Q
11
(Q 2Q) .3Q                                                       
1
                                                                                     
3
??
?
? ? ? ?
??
?
?
?
 
 
(ii) When a medium of dielectric constant K = 5 is introduced in the space inside S 1 in place 
of air, flux through S 1 will be modified to 
11
1
0
11
' Q Q
k k 5
??
? ? ? ? ?
??
  
Thus, the flux will be reduced to (1/5) of its previous value.  
 
18. The described arrangement is equivalent to two capacitors joined in parallel where 
area of plates of either capacitor is 
2
A
.   
          Thus, 
10
10
1
A
k ( )
kA
2
C
d 2d
?
?
??  
           and    
20
20
2
A
k ( )
kA
2
C
d 2d
?
?
??   
          Therefore net capacitance of the capacitor 
 
12
C C C ?? = 
1 0 2 0
k A k A
2d 2d
??
? 
                                    = 
0 12
Akk
()
d2
? ?
   
Page 5


  
 
CBSE XII  |  PHYSICS 
Sample Paper – 2 Solution 
 
     
CBSE Board 
Class XII – Physics 
Sample Paper – 2 Solution 
 
 
1. Since the current does not obey triangular law of vector addition.   
 
2. The current induced in the coil will oppose the approach of magnet, so nearer face of 
coil will act as north pole. Therefore on viewing from the magnet side the current in the 
coil will be anticlockwise. 
  
3. In forward bias the current is represented by  
         
0
B
eV
i i exp( 1)
2k T
?? 
      Where
0
i is called reverse saturation current, V is voltage across the diode, 
B
k is 
Boltzmann constant.  
 
4. All electromagnetic waves travel in vacuum with same speed.  
        
infrared
ultraviolet
Ratio = =1
c
c
  
 
5. The size of the object will be magnified by a factor of  
        
? ?
o
e
f 60
M 12
f5
? ? ? ? ? ?   
 
6. Nuclear density is independent of mass number, so ratio of nuclear densities is 1 : 1.                
  
7. As the voltage of a. c. power transmitted from one station to another is very large, the 
magnitude of the current is very low. Therefore, the power loss is reduced in 
transmission of power as the power loss is given by 
2
P i R ? .  
 
8. Because at absolute zero temperature semiconductor behaves as insulator. Therefore 
semiconductor devices do not work at absolute zero temperature. 
  
9. Torque pEsin ? ? ?  
         
9 4 1 o
C p 4 10 m, E 5 10 NC , 30
??
? ? ? ? ? ?  
         
9 4o
sin 4 10 5 10 30
?
? ? ? ? ? ? ?  
           
4
10 Nm
?
??
 
 
  
  
 
CBSE XII  |  PHYSICS 
Sample Paper – 2 Solution 
 
     
10. Resistance 
2
R
Ar
??
??
?
  
New radius r ' r 2 ?  
New length '4 ? 
           ?New resistance 
? ?
? ?
1
1
' 2 2 2
/4
RR
rr
r / 2
?
??
? ? ? ?
??
?
  
 Resistance of the wire will remain unchanged. 
 
11. The fringe width in Young’s double slit experiment comes out to be 
D
d
?
?? , where D is 
the distance between slits and screen, d is slit width and ? is wavelength of light used.                   
  
If ? is small and d is large, then the fringe width of interference pattern becomes so 
small that interference pattern becomes non-observable.   
Therefore Young’s double slit experiment the slit size is taken of the order of the 
wavelength of light used.  
 
12.  The magnetization of ferromagnetic materials depends both on the applied magnetic 
field and also on the history of magnetization (i. e., how many cycles of magnetization it 
has gone through etc.)  
In other words, the value of magnetization is a record or memory of its cycles of 
magnetization. Since information bits can be made to correspond to these cycles. 
Therefore ferromagnetic materials which show hysteresis loop are used in memory 
devices.         1 
 
13. Wavelength 
8
5
12
c 3 10
5 10 m
6 10
?
?
?
? ? ? ? ?
?
  
This wavelength corresponds to infrared waves.  
Applications of infrared waves: 
(i) They are used in green houses to warm the plants.  
(ii) They are used in taking photographs during fogs.  
 
14. Given that 
Refractive index of lens material with respect to air 
l
n = 1.5 
Focal length of lens in air 
air
f = 18 cm 
Refractive index of water 
w
n = 4 / 3 
Since,  
     
12
12
1 1 1
( n 1)( )
f R R
? ? ? 
1
2
 
         For air medium 
  
 
CBSE XII  |  PHYSICS 
Sample Paper – 2 Solution 
 
     
       
12
1 1 1
(1.5 1)( )
18 RR
? ? ?  …… (1)       
        For water medium 
       
m 1 2
1 1.5 1 1
( 1)( )
f 4 / 3 R R
? ? ?  …… (2)      
        Dividing (1) by (2) and simplifying, we get 
           
m
f = + 72 cm 
         Therefore change in focal length = 72 - 18 = 54 cm.     
 
 
15. Capacitance of parallel plate capacitor 
o
A
CA
d
?
?
?      
Plate area of 
2
C is double to that of 
1 2 1
C ,thus, C 2C . ? 
Slope of q – V graph ??
q
C
V
         
As slope of A is greater than slope of B, so A corresponds to larger capacitance, i.e., 
2
and CB to smaller capacitance, i.e.,
1
C .  
 
16. According to Einstein, when a photon of incident light strikes on a bound electron of 
metal, its energy is used in two ways.  
(i) In overcoming work function of metal to free metallic electron. 
(ii) In imparting kinetic energy to this freed electron. 
         i.e.,
k
h w E ? ? ?  
      When 
k0
E 0, ? ? ? ? (threshold frequency), then 
      
0
0
h w 0
wh
? ? ?
??
  
     Therefore, 
0k
h h E ? ? ? ? 
? ?
0 k
E h v v ??  
So, as the frequency of incident radiation ? increases the max. KE of photoelectrons also 
increases.      OR 
 
From Einstein’s photoelectric equation 
 
k0
E h h ? ? ? ? 
 
0
eV h h ? ? ? ? (V = stopping potential)    
0
hh
V
ee
? ? ? ?   
 
 
 
  
 
CBSE XII  |  PHYSICS 
Sample Paper – 2 Solution 
 
     
Thus,  vs V ? graph is a straight line of form y mx c ?? and the slope of graph is 
h
m
e
? . 
   
 
17. (i)According to Gauss’s law electric flux through S 1   
 and 
 
1
0
2
00
1
2
1
Q
11
(Q 2Q) .3Q                                                       
1
                                                                                     
3
??
?
? ? ? ?
??
?
?
?
 
 
(ii) When a medium of dielectric constant K = 5 is introduced in the space inside S 1 in place 
of air, flux through S 1 will be modified to 
11
1
0
11
' Q Q
k k 5
??
? ? ? ? ?
??
  
Thus, the flux will be reduced to (1/5) of its previous value.  
 
18. The described arrangement is equivalent to two capacitors joined in parallel where 
area of plates of either capacitor is 
2
A
.   
          Thus, 
10
10
1
A
k ( )
kA
2
C
d 2d
?
?
??  
           and    
20
20
2
A
k ( )
kA
2
C
d 2d
?
?
??   
          Therefore net capacitance of the capacitor 
 
12
C C C ?? = 
1 0 2 0
k A k A
2d 2d
??
? 
                                    = 
0 12
Akk
()
d2
? ?
   
  
 
CBSE XII  |  PHYSICS 
Sample Paper – 2 Solution 
 
     
19. The given square ABCD of side 10 cm is one face of a cube of side 10 cm.  At the 
centre of this cube a charge + q = +10 C ? is placed. 
            
According to Gauss’s theorem, total electric through the six faces of cube 
0
q
?
?
  
?Total electric flux through square face ABCD of the cube
0
1
6
q
?
? 
6
5 2 1
12
1 10 10
1.88 10
6 8.85 10
?
?
?
?
? ? ? ?
?
Nm C .  
     OR 
 
Since the air is replaced by another dielectric medium of dielectric constant 10 without 
disconnecting the capacitor from d. c. source. Hence, potential difference between the 
plates of capacitor remains unchanged. Consequently, electric field between the plates (
V
E
d
? ) remains unchanged.  
 
Now capacitance of capacitor with dielectric 
m
C kC 10C ??  
Therefore, the new energy stored in capacitor is 
2 2 2
mm
1 1 1
U C V (10C)V 10( CV ) 10U
2 2 2
? ? ? ?  
Thus, energy stored becomes 10 times the value with air as dielectric. 
 
 
 
 
 
 
 
 
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FAQs on Physics: Sample Solution Paper- 2, Class 12 - Physics for Grade 12

1. What is the law of conservation of energy?
Ans. The law of conservation of energy states that energy cannot be created or destroyed, but it can only be transferred or transformed from one form to another. This means that the total energy of a closed system remains constant over time.
2. How does the law of conservation of energy apply to the article's topic?
Ans. The article's topic may discuss various concepts or phenomena related to energy, and the law of conservation of energy would apply by stating that the total energy involved in those processes remains constant. It helps in understanding the energy transformations or transfers occurring in the given context.
3. What are some examples of energy transformation mentioned in the article?
Ans. The article may mention examples such as the conversion of potential energy to kinetic energy in a falling object, the transformation of electrical energy into light energy in a light bulb, or the conversion of chemical energy to thermal energy in a combustion reaction. These examples illustrate how energy can change from one form to another.
4. How does the article explain the concept of work in physics?
Ans. The article may provide an explanation of work as the transfer of energy that occurs when a force is applied to an object and causes it to move in the direction of the force. It may further discuss how work is calculated using the formula W = F × d, where W is the work done, F is the applied force, and d is the displacement of the object.
5. What are some real-life applications of the principles discussed in the article?
Ans. The article may mention real-life applications such as understanding the energy efficiency of different appliances, calculating the power output of a car engine, or analyzing the energy transfer in renewable energy systems like solar panels or wind turbines. These applications demonstrate the relevance of the physics principles discussed in the article to everyday life.
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