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Test: Dimensions of Physical Quantities - NEET MCQ


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20 Questions MCQ Test Physics Class 11 - Test: Dimensions of Physical Quantities

Test: Dimensions of Physical Quantities for NEET 2024 is part of Physics Class 11 preparation. The Test: Dimensions of Physical Quantities questions and answers have been prepared according to the NEET exam syllabus.The Test: Dimensions of Physical Quantities MCQs are made for NEET 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Dimensions of Physical Quantities below.
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Test: Dimensions of Physical Quantities - Question 1

Which of the following is not the name of a physical quantity ?

Detailed Solution for Test: Dimensions of Physical Quantities - Question 1

Kilogram represent unit of physical quantity and not the physical quantity.

Test: Dimensions of Physical Quantities - Question 2

Light year is the unit of

Detailed Solution for Test: Dimensions of Physical Quantities - Question 2

The light-year is a unit of length used to express astronomical distances and measures about 9.46 trillion kilometres or 5.88 trillion miles. As defined by the International Astronomical Union, a light-year is the distance that light travels in vacuum in one Julian year. 

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Test: Dimensions of Physical Quantities - Question 3

PARSEC is a unit of

Detailed Solution for Test: Dimensions of Physical Quantities - Question 3

The parsec (symbol: pc) is a unit of length used to measure large distances to astronomical objects outside the Solar System. A parsec is defined as the distance at which one astronomical unit subtends an angle of one arcsecond, which corresponds to 648000π astronomical units.

Test: Dimensions of Physical Quantities - Question 4

Which of the following system of units is NOT based on the unit of mass, length and time alone

Detailed Solution for Test: Dimensions of Physical Quantities - Question 4

The SI system of units is a modern system and hence involves all the quantities that can't be derived using all the other quantities of the set. While the rest systems are old and local methods and hence are not scientifically accurate and explainable and thus only have three basic quantities while SI have 7.

Test: Dimensions of Physical Quantities - Question 5

The SI unit of the universal gravitational constant G is

Detailed Solution for Test: Dimensions of Physical Quantities - Question 5

We know that,       g = G. m1 m2 / r2
Where we know g has dimensions of acceleration
Thus [G] = [ g.r2 /m1 m2]
= N m2kg-2

Test: Dimensions of Physical Quantities - Question 6

Which of the following statement is wrong ?

Detailed Solution for Test: Dimensions of Physical Quantities - Question 6

The incorrect statement is:

d) Unit of surface tension is Newton metre.

The correct unit of surface tension is Newton per metre (N/m), not Newton metre.

Here's a breakdown:

  • a) Unit of K.E. is Newton-metre: True, because kinetic energy is measured in joules, and 1 joule equals 1 Newton-metre.
  • b) Unit of viscosity is poise: True, poise is indeed a unit of dynamic viscosity.
  • c) Work and energy have the same dimensions: True, both work and energy have the same dimensions and are measured in joules.
  • d) Unit of surface tension is Newton metre: Incorrect, it should be Newton per metre (N/m).
Test: Dimensions of Physical Quantities - Question 7

What are the dimensions of length in force × displacement/time

Detailed Solution for Test: Dimensions of Physical Quantities - Question 7

[F] = MLT-2
[displacement/time]  = LT-1
Thus we get [F x displacement/time] = ML2T-3
Thus the answer is 2

Test: Dimensions of Physical Quantities - Question 8

The angular frequency is measured in rad s-1. Its dimension in length are :

Detailed Solution for Test: Dimensions of Physical Quantities - Question 8

Unit of angular frequency is rad/sec which can be said as angle/time. As angle is dimensionless and time has dimension T, we get the dimension of angular frequency as T-1

Test: Dimensions of Physical Quantities - Question 9

The dimensional formula of coefficient of viscosity is

Detailed Solution for Test: Dimensions of Physical Quantities - Question 9

Coefficient of viscosity (η)= Fr/Av   

 F= tangential Force, Area, r= distance between the layers, v= velocity.

Dimensional Formula of Force = M1L1T-2.
Dimensional Formula of Area= M0L2T0.
Dimensional Formula of distance= M0L1T0.
Dimensional Formula of velocity= M0L1T-1.

Putting these values in above equation we get,

[η]= [M1L1T-2][M0L1T0] / [M0L2T0] [M0L1T-1] = [M1L-1T-1]

Test: Dimensions of Physical Quantities - Question 10

A pair of physical quantities having the same dimensional formula is :

Detailed Solution for Test: Dimensions of Physical Quantities - Question 10

The dimensions of angular momentum are M L2T−1
That of torque is  M L2T−2
Also dimension of energy is  M L2T−2
Where as same of force is  M LT−2
And of power is  M L2T−3
Thus we get torque and energy have the same dimensional formulas.

Test: Dimensions of Physical Quantities - Question 11

Dimensions of pressure are the same as that of

Detailed Solution for Test: Dimensions of Physical Quantities - Question 11

[P] = [F/A] = MLT-2 / L2  = ML-1T-2
[F/V] = MLT-2 / L3  = ML-2T-2
[E/V] = ML2T-2 / L3  = ML-1T-2

Test: Dimensions of Physical Quantities - Question 12

 If momentum (P), area (A) and time (T) are taken to be fundamental quantities, then energy has the dimensional formula 

Detailed Solution for Test: Dimensions of Physical Quantities - Question 12

[E] = [F][d]
= [P/T][A]½ 
[E] = P1A½T-1

Test: Dimensions of Physical Quantities - Question 13

The M.K.S. units of coefficient of viscosity is-

Detailed Solution for Test: Dimensions of Physical Quantities - Question 13

We know that coefficient of viscosity (η)= Fr/Av where F = tangential force, r = distance between the layers , v = velocity and A is the area of the surface.
 Thus we get [η] = MLT-2.L / L2. (L/T)
= M / LT
Thus its unit is kg / m sec

Test: Dimensions of Physical Quantities - Question 14

For 10(at+3) , the dimension of a is-

Detailed Solution for Test: Dimensions of Physical Quantities - Question 14

As 'at' and 3 are added in the equation, we get at and 3 have same dimensions i.e.1
Thus a has dimensions same as 1/t.

Test: Dimensions of Physical Quantities - Question 15

The pressure of 106 dyne/cm2 is equivalent to

Detailed Solution for Test: Dimensions of Physical Quantities - Question 15

We know that 105 dyne = 1N
And 104cm2  = 1 m2
Thus we get 10 dyne / cm2 = N / m2
Hence 106 dyne / cm2 =105 N / m2

Test: Dimensions of Physical Quantities - Question 16

The sum of the numbers 436.32, 227.2 and 0.301 in appropriate significant figures is

Detailed Solution for Test: Dimensions of Physical Quantities - Question 16

The result of an addition or subtraction in the number having different precisions should be reported to the same number of decimal places as present in the number having the least number of decimal places.

The final result should, therefore, be rounded off to one decimal place, i.e. 663.8

Test: Dimensions of Physical Quantities - Question 17

 The SI unit of length is the meter. Suppose we adopt a new unit of length which equals to x meters. The area 1m2 expressed in terms of the new unit has a magnitude-

Detailed Solution for Test: Dimensions of Physical Quantities - Question 17

We have  1 unit = x meters
So  1 unit2 = x2 meter2
Hence, we get  1 meter2 = 1/x2 unit2

Test: Dimensions of Physical Quantities - Question 18

 r = 2 g/cm3 convert it into MKS system -

Detailed Solution for Test: Dimensions of Physical Quantities - Question 18

Test: Dimensions of Physical Quantities - Question 19

Given that v is the speed, r is radius and g is acceleration due to gravity. Which of the following is dimension less

Detailed Solution for Test: Dimensions of Physical Quantities - Question 19

v2r/g= (L1T-1)2L1/LT-2=L2
v2/rg= (LT-1)2 L1(L1 T-2) ​=M0L0T0
v2g/r​=(LT-1)2 LT-2/L​=L2T-4
v2rg=(LT-1)2(L1) (LT-1) =L4T-3
So, option D is correct.

Test: Dimensions of Physical Quantities - Question 20

 The value of G = 6.67 × 10_11 N m2 (kg)_2. Its numerical value in CGS system will be :

Detailed Solution for Test: Dimensions of Physical Quantities - Question 20


G = 6.67 x 10-11 Nm2/kg2

so, when expressed in VGS units we shall convert N to dynes, m to cm and kg to g, thus

G = 6.67 x 10-11 x [(105dynes x (102)2cm2 ) / (103)2 g2]

=  6.67 x 10-11 x [ (105 x 104 ) / 106 ] 

Thus,

in CGS system

G = 6.67 x 10-8 dyne.cm2/g2

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