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Prani GargEduRev Commerce |
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Prani Garg
EduRev Commerce
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Content, tests & courses saved by you for accessing later. (visible to you only)
Discussed Questions
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Pallavi Nair upvoted • 3 weeks ago |
Power consumed in the given circuit is-
- a)100 Watts
- b)5 Watts
- c)20 Watts
- d)40 Watts
Correct answer is option 'B'. Can you explain this answer?
Power consumed in the given circuit is-
a)
100 Watts
b)
5 Watts
c)
20 Watts
d)
40 Watts
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Bank Exams India answered |
power consumed in the circuit, P
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Pallavi Nair asked • Feb 24, 2025 |
Which of the following factors has been noted as a potential trigger for Guillain-Barré Syndrome?- a)Consumption of high-fat diets
- b)High levels of physical activity
- c)Genetic predisposition
- d)Viral or bacterial infections
Correct answer is option 'D'. Can you explain this answer?
Which of the following factors has been noted as a potential trigger for Guillain-Barré Syndrome?
a)
Consumption of high-fat diets
b)
High levels of physical activity
c)
Genetic predisposition
d)
Viral or bacterial infections
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Crafty Classes answered |
Viral or bacterial infections are recognized as potential triggers for Guillain-Barré Syndrome. In many cases, after an infection, the immune system may mistakenly attack the body's nerves, leading to the symptoms associated with GBS. While the exact mechanisms remain unclear, it is important to note that GBS can also occur following vaccinations or surgeries, although such instances are rare. This highlights the complex relationship between the immune system and neurological health.
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Pallavi Nair upvoted • Feb 20, 2025 |
The sum of the voltages over any closed loop is equal to __________- a)0V
- b)Infinity
- c)1V
- d)2V
Correct answer is option 'A'. Can you explain this answer?
The sum of the voltages over any closed loop is equal to __________
a)
0V
b)
Infinity
c)
1V
d)
2V
|
Sanjana Chopra answered |
According to KVL, the sum of the voltage over any closed loop is equal to 0.
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Pallavi Nair upvoted • Feb 04, 2025 |
Find the value of Green’s theorem for F = x2 and G = y2 is- a)0
- b)1
- c)2
- d)3
Correct answer is option 'A'. Can you explain this answer?
Find the value of Green’s theorem for F = x2 and G = y2 is
a)
0
b)
1
c)
2
d)
3
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Sarthak Yadav answered |
Answer: a
Explanation: ∫∫(dG/dx – dF/dy)dx dy = ∫∫(0 – 0)dx dy = 0. The value of Green’s theorem gives zero for the functions given.
Explanation: ∫∫(dG/dx – dF/dy)dx dy = ∫∫(0 – 0)dx dy = 0. The value of Green’s theorem gives zero for the functions given.
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Pallavi Nair upvoted • Jan 29, 2025 |
In the following circuit, the 3 dB cutoff frequency (in kHz) is ____. (Answer up to two decimal places)
Correct answer is '1.59'. Can you explain this answer?
In the following circuit, the 3 dB cutoff frequency (in kHz) is ____. (Answer up to two decimal places)
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Pioneer Academy answered |
Let R1 = 3kΩ, R2 = 6kΩ, C = 50 nF
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Pallavi Nair upvoted • Jan 22, 2025 |
In the single phase voltage controller circuit shown in the figure, for what range of triggering angle (α) is the output voltage (v0) not controllable?
- a)0° < α="" />< />
- b)45° < α="" />< />
- c)90° < α="" />< />
- d)135° < α="" />< />
Correct answer is option 'A'. Can you explain this answer?
In the single phase voltage controller circuit shown in the figure, for what range of triggering angle (α) is the output voltage (v0) not controllable?
a)
0° < α="" />< />
b)
45° < α="" />< />
c)
90° < α="" />< />
d)
135° < α="" />< />
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Naroj Boda answered |
Uncontrollable output voltage is obtained when firing angle of the above circuit satisfies the condition shown below:
where α = Firing angle.
= Circuit phase angle.
Range of firing angle α for uncontrollable output voltage is 0° ≤ α ≤ 45°.
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Pallavi Nair asked • Jan 20, 2025 |
What is the primary purpose of the Upper Karnali Hydro-electric Project?- a) To increase tourism in Nepal
- b) To enhance energy generation and regional cooperation
- c) To provide irrigation facilities to farmers
- d) To reduce traffic congestion in the region
Correct answer is option 'B'. Can you explain this answer?
What is the primary purpose of the Upper Karnali Hydro-electric Project?
a)
To increase tourism in Nepal
b)
To enhance energy generation and regional cooperation
c)
To provide irrigation facilities to farmers
d)
To reduce traffic congestion in the region
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Aspire Academy answered |
The Upper Karnali Hydro-electric Project is primarily aimed at enhancing energy generation and fostering regional cooperation among Nepal, India, and Bangladesh. This initiative not only contributes to electricity supply but also strengthens economic ties and collaborative efforts in sustainable energy development among the neighboring countries. An interesting fact is that the project is expected to produce approximately 3,466 million units of electricity annually, significantly contributing to the energy needs of the region while also focusing on reducing greenhouse gas emissions by around two million tons each year.
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Pallavi Nair asked • Nov 16, 2024 |
Which advanced aircraft will the Indian Air Force deploy during the 'Poorvi Prahaar' exercise?- a) C-130J Super Hercules
- b) MiG-21
- c) Tejas
- d) Su-30 MKI
Correct answer is option 'D'. Can you explain this answer?
Which advanced aircraft will the Indian Air Force deploy during the 'Poorvi Prahaar' exercise?
a)
C-130J Super Hercules
b)
MiG-21
c)
Tejas
d)
Su-30 MKI
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Crafty Classes answered |
The Indian Air Force will deploy advanced fighter jets, including the Su-30 MKI, during the 'Poorvi Prahaar' exercise. This aircraft is known for its versatility, advanced avionics, and capability to perform a variety of combat roles. Its inclusion highlights the IAF's commitment to maintaining high operational standards and readiness, which is essential for effective participation in joint military exercises.
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Pallavi Nair asked • Sep 17, 2024 |
Which city is recognized as a UNESCO World Heritage Site for its architectural and cultural heritage?- a)Mumbai
- b)Jaipur
- c)Agra
- d)Bangalore
Correct answer is option 'B'. Can you explain this answer?
a)
Mumbai
b)
Jaipur
c)
Agra
d)
Bangalore
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Sushil Kumar answered |
Jaipur, also known as the "Pink City," was recognized as a UNESCO World Heritage Site in 2019 due to its distinct urban planning and architectural significance.
The factor which influences the acr de ionisation dominantly ________- a)line voltage
- b)magnitude of transient fault current
- c)speed of reclosure
- d)all of the mentioned
Correct answer is option 'A'. Can you explain this answer?
The factor which influences the acr de ionisation dominantly ________
a)
line voltage
b)
magnitude of transient fault current
c)
speed of reclosure
d)
all of the mentioned
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Pallavi Nair answered • Sep 15, 2024 |
Introduction
In electrical systems, the phenomenon of arc de-ionization is crucial for understanding how and when an arc can be extinguished. Among various factors that influence this process, line voltage plays a dominant role.
Line Voltage Influence
- Definition: Line voltage refers to the voltage level at which electrical power is transmitted across the lines... more
In electrical systems, the phenomenon of arc de-ionization is crucial for understanding how and when an arc can be extinguished. Among various factors that influence this process, line voltage plays a dominant role.
Line Voltage Influence
- Definition: Line voltage refers to the voltage level at which electrical power is transmitted across the lines... more
Find the magnetic moment of a material with magnetization 5 units in a volume of 35 units.- a)7
- b)1/7
- c)15
- d)175
Correct answer is option 'D'. Can you explain this answer?
Find the magnetic moment of a material with magnetization 5 units in a volume of 35 units.
a)
7
b)
1/7
c)
15
d)
175
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Pallavi Nair answered • Sep 14, 2024 |
Understanding Magnetic Moment
The magnetic moment (m) of a material can be calculated using the formula:
m = M × V
Where:
- M = Magnetization (in units)
- V = Volume (in units)
Given:
- Magnetization (M) = 5 units
- Volume (V) = 35 units
Calculation Steps
1. Insert the values into the formula:
m = ... more
2. Perform the multiplication:
m = 175 units
Thus, the magnetic moment of the material is 175 units.
Conclusion
The correct answer is option 'D', which is 175. This calculation shows how the magnetic moment is directly influenced by both the magnetization and the volume of the material.
To summarize:
- The magnetic moment quantifies the strength and direction of a magnetic source.
- It is directly proportional to both the magnetization and the volume of the material.
- In this scenario, a magnetization of 5 units in a volume of 35 units results in a magnetic moment of 175 units.
This highlights the importance of both parameters in determining the magnetic properties of materials.
The magnetic moment (m) of a material can be calculated using the formula:
m = M × V
Where:
- M = Magnetization (in units)
- V = Volume (in units)
Given:
- Magnetization (M) = 5 units
- Volume (V) = 35 units
Calculation Steps
1. Insert the values into the formula:
m = ... more
2. Perform the multiplication:
m = 175 units
Thus, the magnetic moment of the material is 175 units.
Conclusion
The correct answer is option 'D', which is 175. This calculation shows how the magnetic moment is directly influenced by both the magnetization and the volume of the material.
To summarize:
- The magnetic moment quantifies the strength and direction of a magnetic source.
- It is directly proportional to both the magnetization and the volume of the material.
- In this scenario, a magnetization of 5 units in a volume of 35 units results in a magnetic moment of 175 units.
This highlights the importance of both parameters in determining the magnetic properties of materials.
Find the electric field intensity of a charge 2.5C with a force of 3N.- a)-7.5
- b)7.5
- c)2.5/3
- d)3/2.5
Correct answer is option 'D'. Can you explain this answer?
Find the electric field intensity of a charge 2.5C with a force of 3N.
a)
-7.5
b)
7.5
c)
2.5/3
d)
3/2.5
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Pallavi Nair answered • Sep 14, 2024 |
To determine the electric field intensity (E) created by a charge (Q) under the influence of a force (F), we can use the relationship given by the formula:
Electric Field Intensity Formula
E = F/Q
Where:
- E = Electric field intensity (in Newtons per Coulomb, N/C)
- F = Force acting on the charge (in Newtons, N)
- Q = Charge (in Coulombs, C)
Given Value... more
- Charge (Q) = 2.5 C
- Force (F) = 3 N
Calculating Electric Field Intensity
Now, substituting the given values into the formula:
E = F/Q = 3 N / 2.5 C
Performing the Division
To calculate:
- E = 3 / 2.5
This can be simplified:
- E = 3 ÷ 2.5 = 1.2 N/C
Reviewing the Options
The options provided were:
- a) -7.5
- b) 7.5
- c) 2.5/3
- d) 3/2.5
Among these options, the value of E we calculated (1.2 N/C) is not explicitly listed. However, option 'd' (3/2.5) simplifies to 1.2, confirming that the correct answer is indeed option 'd'.
Conclusion
Thus, the electric field intensity created by a charge of 2.5 C under a force of 3 N is:
- E = 3/2.5, which is equivalent to 1.2 N/C.
Therefore, option 'd' is correct.
Electric Field Intensity Formula
E = F/Q
Where:
- E = Electric field intensity (in Newtons per Coulomb, N/C)
- F = Force acting on the charge (in Newtons, N)
- Q = Charge (in Coulombs, C)
Given Value... more
- Charge (Q) = 2.5 C
- Force (F) = 3 N
Calculating Electric Field Intensity
Now, substituting the given values into the formula:
E = F/Q = 3 N / 2.5 C
Performing the Division
To calculate:
- E = 3 / 2.5
This can be simplified:
- E = 3 ÷ 2.5 = 1.2 N/C
Reviewing the Options
The options provided were:
- a) -7.5
- b) 7.5
- c) 2.5/3
- d) 3/2.5
Among these options, the value of E we calculated (1.2 N/C) is not explicitly listed. However, option 'd' (3/2.5) simplifies to 1.2, confirming that the correct answer is indeed option 'd'.
Conclusion
Thus, the electric field intensity created by a charge of 2.5 C under a force of 3 N is:
- E = 3/2.5, which is equivalent to 1.2 N/C.
Therefore, option 'd' is correct.
At high frequencies, which parameter is significant?- a)Conduction current
- b)Displacement current
- c)Attenuation constant
- d)Phase constant
Correct answer is option 'B'. Can you explain this answer?
At high frequencies, which parameter is significant?
a)
Conduction current
b)
Displacement current
c)
Attenuation constant
d)
Phase constant
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Pallavi Nair answered • Sep 14, 2024 |
Understanding High-Frequency Behavior
At high frequencies, the behavior of electrical circuits and components changes significantly due to the influence of both conduction and displacement currents.
Conduction Current vs. Displacement Current
- Conduction Current: This is the traditional current that flows due to the movement of charge carriers (like electrons)... more
At high frequencies, the behavior of electrical circuits and components changes significantly due to the influence of both conduction and displacement currents.
Conduction Current vs. Displacement Current
- Conduction Current: This is the traditional current that flows due to the movement of charge carriers (like electrons)... more
Calculate the magnetic flux density if the magnetic field strength is 3A/m.- a)4*pi/10-7T
- b)8*pi/10-7T
- c)10*pi/10-7T
- d)12*pi/10-7T
Correct answer is option 'D'. Can you explain this answer?
Calculate the magnetic flux density if the magnetic field strength is 3A/m.
a)
4*pi/10-7T
b)
8*pi/10-7T
c)
10*pi/10-7T
d)
12*pi/10-7T
|
|
Pallavi Nair answered • Sep 14, 2024 |
Understanding Magnetic Flux Density
Magnetic flux density (B) can be derived from the magnetic field strength (H) using the relationship:
\[ B = \mu H \]
where:
- \( B \) = magnetic flux density (in Tesla, T)
- \( H \) = magnetic field strength (in A/m)
- \( \mu \) = permeability of the medium (in H/m)
For free space, the permeability \( \mu \) is given by... more
Magnetic flux density (B) can be derived from the magnetic field strength (H) using the relationship:
\[ B = \mu H \]
where:
- \( B \) = magnetic flux density (in Tesla, T)
- \( H \) = magnetic field strength (in A/m)
- \( \mu \) = permeability of the medium (in H/m)
For free space, the permeability \( \mu \) is given by... more
The unit for permeability of free space is?- a)Henry
- b)Henry-m
- c)Henry/m
- d)Henry/m2
Correct answer is option 'C'. Can you explain this answer?
The unit for permeability of free space is?
a)
Henry
b)
Henry-m
c)
Henry/m
d)
Henry/m2
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Pallavi Nair answered • Sep 14, 2024 |
Understanding Permeability of Free Space
Permeability of free space, denoted as μ₀, is a physical constant that describes how a magnetic field interacts with the vacuum. It is crucial in electromagnetic theory and is a measure of the ability of a material (or vacuum) to support the formation of a magnetic field.
Unit of Permeability of Free Space
The unit of permeabili... more
Permeability of free space, denoted as μ₀, is a physical constant that describes how a magnetic field interacts with the vacuum. It is crucial in electromagnetic theory and is a measure of the ability of a material (or vacuum) to support the formation of a magnetic field.
Unit of Permeability of Free Space
The unit of permeabili... more
Which of the following is not limitation of the operational amplifier- a)Output voltage saturation
- b)Output current limits
- c)Slew rate
- d)None of the mentioned
Correct answer is option 'D'. Can you explain this answer?
Which of the following is not limitation of the operational amplifier
a)
Output voltage saturation
b)
Output current limits
c)
Slew rate
d)
None of the mentioned
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|
Pallavi Nair answered • Sep 14, 2024 |
Understanding Operational Amplifier Limitations
Operational amplifiers (op-amps) are versatile components used in various electronic applications. However, they have inherent limitations that engineers must consider. Let’s break down the provided options.
Output Voltage Saturation
- This limitation occurs when the output voltage of an op-amp reaches its maximum or mini... more
Operational amplifiers (op-amps) are versatile components used in various electronic applications. However, they have inherent limitations that engineers must consider. Let’s break down the provided options.
Output Voltage Saturation
- This limitation occurs when the output voltage of an op-amp reaches its maximum or mini... more
The curve between the collector current and the saturation is- a)A straight line inclined to the axes
- b)A straight line parallel to the x-axis
- c)A straight line parallel to the y-axis
- d)An exponential curve
Correct answer is option 'A'. Can you explain this answer?
The curve between the collector current and the saturation is
a)
A straight line inclined to the axes
b)
A straight line parallel to the x-axis
c)
A straight line parallel to the y-axis
d)
An exponential curve
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Pallavi Nair answered • Sep 14, 2024 |
Understanding the Collector Current and Saturation Curve
The relationship between collector current (Ic) and saturation is crucial in analyzing transistor behavior, particularly in bipolar junction transistors (BJTs). The curve illustrates how the collector current changes with variations in base current or voltage until saturation is reached.
Characteristics of the Curve... more
The relationship between collector current (Ic) and saturation is crucial in analyzing transistor behavior, particularly in bipolar junction transistors (BJTs). The curve illustrates how the collector current changes with variations in base current or voltage until saturation is reached.
Characteristics of the Curve
Which of the following is true for a npn transistor in the saturation region?- a)The potential difference between the collector and the base is approximately 0.2V
- b)The potential difference between the collector and the base is approximately 0.3V
- c)The potential difference between the collector and the base is approximately 0.4V
- d)The potential difference between the collector and the base is approximately 0.5V
Correct answer is option 'D'. Can you explain this answer?
Which of the following is true for a npn transistor in the saturation region?
a)
The potential difference between the collector and the base is approximately 0.2V
b)
The potential difference between the collector and the base is approximately 0.3V
c)
The potential difference between the collector and the base is approximately 0.4V
d)
The potential difference between the collector and the base is approximately 0.5V
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Pallavi Nair answered • Sep 14, 2024 |
Understanding NPN Transistor Saturation
In the saturation region, an NPN transistor operates as a closed switch, allowing the maximum current to flow from collector to emitter.
Key Characteristics of Saturation Region
- The transistor is fully on, meaning both the base-emitter and base-collector junctions are forward-biased.
- In this state, the collector current... more
In the saturation region, an NPN transistor operates as a closed switch, allowing the maximum current to flow from collector to emitter.
Key Characteristics of Saturation Region
- The transistor is fully on, meaning both the base-emitter and base-collector junctions are forward-biased.
- In this state, the collector current... more
The AC power of output signal is obtained by- a)Input AC voltage
- b)Input DC voltage
- c)DC biasing voltage
- d)Power is generated by transistor itself
Correct answer is option 'C'. Can you explain this answer?
The AC power of output signal is obtained by
a)
Input AC voltage
b)
Input DC voltage
c)
DC biasing voltage
d)
Power is generated by transistor itself
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|
Pallavi Nair answered • Sep 14, 2024 |
Understanding AC Power Output Signal
When discussing the AC power of an output signal, it is crucial to understand the role of DC biasing voltage in the generation of the AC signal.
The Role of DC Biasing Voltage
- Biasing in Transistors: In electronic circuits, particularly with transistors, DC biasing is essential for setting the operating point of the transis... more
When discussing the AC power of an output signal, it is crucial to understand the role of DC biasing voltage in the generation of the AC signal.
The Role of DC Biasing Voltage
- Biasing in Transistors: In electronic circuits, particularly with transistors, DC biasing is essential for setting the operating point of the transis... more
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Pallavi Nair asked • Dec 15, 2023 |
In the logic circuit shown below, the output F = _____
- a)0
- b)1
- c)X
- d)X'
Correct answer is option 'A'. Can you explain this answer?
In the logic circuit shown below, the output F = _____
a)
0
b)
1
c)
X
d)
X'
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EduRev GATE answered |
Concept:
XOR TRUTH TABLE
Application:
P = X ⊕ X = 0
Application:
P = X ⊕ X = 0
Q = P ⊕ X = 0 ⊕ X = X
F = Q ⊕ X = X ⊕ X = 0
Shortcut Trick
Case I:
If the no. of XOR gates are odd then the output will be zero
If the no. of XOR gates are odd then the output will be zero
Case 2:
If the no. of XOR gates are even then the output will be the same as the input
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Pallavi Nair asked • Oct 31, 2023 |
A step-down chopper has Vs as a source voltage, α is the duty ratio and R is the load resistance. The r.m.s. value of output voltage is- a)
- b)
- c)
- d)αVs
Correct answer is option 'C'. Can you explain this answer?
A step-down chopper has Vs as a source voltage, α is the duty ratio and R is the load resistance. The r.m.s. value of output voltage is
a)
b)
c)
d)
αVs
|
Bayshore Academy answered |
Step-down chopper:
Case 1: When the switch is ON
The diode is reverse biased.
VO = VS
Case 2: When the switch is OFF
The diode is reverse biased.
VO = 0
The r.m.s. value of output voltage is given by:
|
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Pallavi Nair asked • Oct 06, 2023 |
Which NBA player scored 8 points in the final 7 seconds of a game to lead his team to victory?- a)Baron Davis
- b)Kevin Garnett
- c)Stephon Maurbury
- d)Reggie Miller
Correct answer is option 'D'. Can you explain this answer?
Which NBA player scored 8 points in the final 7 seconds of a game to lead his team to victory?
a)
Baron Davis
b)
Kevin Garnett
c)
Stephon Maurbury
d)
Reggie Miller
|
Mita Mehta answered |
Reggie Miller's Game-Winning Performance
Reggie Miller, an iconic NBA player, once scored 8 points in the final 7 seconds of a game to lead his team to victory. This remarkable feat occurred on May 7, 1995, during a playoff game between the Indiana Pacers and the New York Knicks. Let's delve into the details of this historic moment:
The Game Scenario
- The game was the... more
Reggie Miller, an iconic NBA player, once scored 8 points in the final 7 seconds of a game to lead his team to victory. This remarkable feat occurred on May 7, 1995, during a playoff game between the Indiana Pacers and the New York Knicks. Let's delve into the details of this historic moment:
The Game Scenario
- The game was the... more
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Pallavi Nair asked • Sep 03, 2023 |
Direction: The following question consists of two statements, one labeled as the 'Statement (I)' and the other as 'Statement (II)'. Examine these two statements carefully and select the correct answer. Statement-I: The dimension of nanomaterial is comparable to the wavelength of the photon.Statement-II: Randomly moving electron gets confined to a specific energy level.- a)Statement I and Statement II are correct and Statement II is the correct explanation of Statement I.
- b)Statement I and Statement II are correct but Statement II is not the correct explanation of Statement I
- c)Statement I is correct, Statement II is false
- d)Statement I is false, Statement II is correct
Correct answer is option 'B'. Can you explain this answer?
Direction: The following question consists of two statements, one labeled as the 'Statement (I)' and the other as 'Statement (II)'. Examine these two statements carefully and select the correct answer.
Statement-I: The dimension of nanomaterial is comparable to the wavelength of the photon.
Statement-II: Randomly moving electron gets confined to a specific energy level.
a)
Statement I and Statement II are correct and Statement II is the correct explanation of Statement I.
b)
Statement I and Statement II are correct but Statement II is not the correct explanation of Statement I
c)
Statement I is correct, Statement II is false
d)
Statement I is false, Statement II is correct
|
Anjana Singh answered |
In nanotechnology, the size of the material is reduced to the size of the nano-domain (1 to 100 mm). This dimension is comparable to the wavelength of the photon.
[Statement-I is correct]
Due to the quantum mechanical effect, the motion of randomly moving electrons gets confined to specific energy levels.
It affects the electrical, magnetic, and optical properties of nanomaterials.
[Statement-II is also correct]
Both are independent correct statement
So option (B) is correct.
|
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Pallavi Nair asked • Aug 22, 2023 |
In a two element series circuit, the applied voltage and the resulting current are v(t) = 60 + 66sin (10 t) V, i(t) = 2.3sin (103t + 68.3o) A.The nature of the elements would be- a)R-C
- b)L-C
- c)R-L
- d)R-R
Correct answer is option 'A'. Can you explain this answer?
In a two element series circuit, the applied voltage and the resulting current are v(t) = 60 + 66sin (10 t) V, i(t) = 2.3sin (103t + 68.3o) A.The nature of the elements would be
a)
R-C
b)
L-C
c)
R-L
d)
R-R
|
|
Anjana Singh answered |
R-Ccauses a positive phase shift in voltage
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