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The dimensions of (μ0ε0)^−1/2 are
27
Aug
The dimensions of (μ0ε0)^−1/2 are The dimensions of (μ0ε0)^−1/2 are August 27, 2020 Category: Chapter 1 - Units and Dimensions , NEET Last 32 Years Solved 1988 - 2019 Physics and Chemistry Video Solutions , Physics ,
Posted in: Chapter 1 - Units and Dimensions , NEET Last 32 Years Solved 1988 - 2019 Physics and Chemistry Video Solutions , Physics ,
Tags: The dimensions of (μ0ε0)^−1/2 are ,
If force (F), velocity (V),andtime (T) are taken as fundamental units, then find the dimensions formula for mass are
27
Aug
If force (F), velocity (V),andtime (T) are taken as fundamental units, then find the dimensions formula for mass are and time (T) are taken as fundamental units If force (F) then find the dimensions formula for mass are velocity (V) August 27, 2020 Category: Chapter 1 - Units and Dimensions , NEET Last 32 Years [...]
Posted in: Chapter 1 - Units and Dimensions , NEET Last 32 Years Solved 1988 - 2019 Physics and Chemistry Video Solutions , Physics ,
Tags: and time (T) are taken as fundamental units , If force (F) , then find the dimensions formula for mass are , velocity (V) ,
A particle moves from position A to position B in a path as shown in If the poit vectors vec r_(1) and vec r_(2) making an angle theta between them are give, find the magnitude of displacement.
27
Aug
A particle moves from position A to position B in a path as shown in If the poit vectors vec r_(1) and vec r_(2) making an angle theta between them are give, find the magnitude of displacement. A particle moves from position A to position B in a path as shown in If the poit [...]
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Tags: A particle moves from position A to position B in a path as shown in If the poit vectors vec r_(1) and vec r_(2) making an angle theta between them are give , find the magnitude of displacement. ,
If energy (E), velocity (V) and time (T) are chosen as the fundamental quantities, the dimensional formula of surface tension will be
27
Aug
If energy (E), velocity (V) and time (T) are chosen as the fundamental quantities, the dimensional formula of surface tension will be If energy (E) the dimensional formula of surface tension will be velocity (V) and time (T) are chosen as the fundamental quantities August 27, 2020 Category: Chapter 1 - Units and Dimensions , [...]
Posted in: Chapter 1 - Units and Dimensions , NEET Last 32 Years Solved 1988 - 2019 Physics and Chemistry Video Solutions , Physics ,
Tags: If energy (E) , the dimensional formula of surface tension will be , velocity (V) and time (T) are chosen as the fundamental quantities ,
A particle move in x-y plane such that its position vector varies with time as vec r=(2 sin 3t)hat j+2 (1-cos 3 t) hat j. Find the equation of the trajectory of the particle.
27
Aug
A particle move in x-y plane such that its position vector varies with time as vec r=(2 sin 3t)hat j+2 (1-cos 3 t) hat j. Find the equation of the trajectory of the particle. A particle move in x-y plane such that its position vector varies with time as vec r=(2 sin 3t)hat j+2 (1-cos [...]
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Tags: A particle move in x-y plane such that its position vector varies with time as vec r=(2 sin 3t)hat j+2 (1-cos 3 t) hat j. Find the equation of the trajectory of the particle. ,
A physical quantity of the dimension of length that can be formed out of c, G and 4πϵ0​ e^2​ is [c is velocity of light, G is universal constant of gravitation and e is charge]
27
Aug
A physical quantity of the dimension of length that can be formed out of c, G and 4πϵ0​ e^2​ is [c is velocity of light, G is universal constant of gravitation and e is charge] A physical quantity of the dimension of length that can be formed out of c G and 4πϵ0​ e^2​ is [...]
Posted in: Chapter 1 - Units and Dimensions , NEET Last 32 Years Solved 1988 - 2019 Physics and Chemistry Video Solutions , Physics ,
Tags: A physical quantity of the dimension of length that can be formed out of c , G and 4πϵ0​ e^2​ is [c is velocity of light , G is universal constant of gravitation and e is charge] ,
The velocity v of a particle at time t is given by v=at + t + cb​ where a,b and c are constants. The dimensions of a, b and c are respectively :
27
Aug
The velocity v of a particle at time t is given by v=at + t + cb​ where a,b and c are constants. The dimensions of a, b and c are respectively : b and c are constants. The dimensions of a b and c are respectively : The velocity v of a particle at [...]
Posted in: Chapter 1 - Units and Dimensions , NEET Last 32 Years Solved 1988 - 2019 Physics and Chemistry Video Solutions , Physics ,
Tags: b and c are constants. The dimensions of a , b and c are respectively : , The velocity v of a particle at time t is given by v=at+t+cb​ where a ,
A partical moves in the x-y plane according to the scheme x=-8 sin pi t and y=-2 cos 2pi t, where t is time. Find the equation of path of the particle
27
Aug
A partical moves in the x-y plane according to the scheme x=-8 sin pi t and y=-2 cos 2pi t, where t is time. Find the equation of path of the particle A partical moves in the x-y plane according to the scheme x=-8 sin pi t and y=-2 cos 2pi t where t is [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: A partical moves in the x-y plane according to the scheme x=-8 sin pi t and y=-2 cos 2pi t , where t is time. Find the equation of path of the particle ,
Show that vector a = 3i – 2j + k , vector b = i – 3j + 5k and vector c = 2i + j – 4k forms a right angled triangle?
27
Aug
Show that vector a = 3i – 2j + k , vector b = i – 3j + 5k and vector c = 2i + j – 4k forms a right angled triangle? Show that vector a=3i-2j+k vector b=i-3j+5k and vector c=2i+j-4k forms a right angled triangle? August 27, 2020 Category: Uncategorised (JEE Advanced Physics [...]
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Tags: Show that vector a=3i-2j+k , vector b=i-3j+5k and vector c=2i+j-4k forms a right angled triangle? ,
If dimensions of critical velocity vc​ of a liquid flowing through a tube are expressed as [η^x p^y r^z], where η, p and r are the coefficient of viscosity of liquid, density of liquid and radius of the tube respectively, then values of x, y and z are given by:
27
Aug
If dimensions of critical velocity vc​ of a liquid flowing through a tube are expressed as [η^x p^y r^z], where η, p and r are the coefficient of viscosity of liquid, density of liquid and radius of the tube respectively, then values of x, y and z are given by: density of liquid and radius [...]
Posted in: Chapter 1 - Units and Dimensions , NEET Last 32 Years Solved 1988 - 2019 Physics and Chemistry Video Solutions , Physics ,
Tags: density of liquid and radius of the tube respectively , If dimensions of critical velocity vc​ of a liquid flowing through a tube are expressed as [η^x p^y r^z] , p and r are the coefficient of viscosity of liquid , then values of x , where η , y and z are given by: ,