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The equation of state, corresponding to 8 g of O2 is
26
Aug
The equation of state, corresponding to 8 g of O2 is corresponding to 8 g of O2 is The equation of state August 26, 2020 Category: Chapter 18 - Thermodynamics , NEET Last 32 Years Solved 1988 - 2019 Physics and Chemistry Video Solutions , Physics ,
Posted in: Chapter 18 - Thermodynamics , NEET Last 32 Years Solved 1988 - 2019 Physics and Chemistry Video Solutions , Physics ,
Tags: corresponding to 8 g of O2 is , The equation of state ,
A particle moves with a constant acceleration a=2 ms −2 along a straight line. If its moves with an initial velocity of 5 ms −1 , then obtain an expression for its instantaneous velocity.
26
Aug
A particle moves with a constant acceleration a=2 ms −2 along a straight line. If its moves with an initial velocity of 5 ms −1 , then obtain an expression for its instantaneous velocity. A particle moves with a constant acceleration a=2 ms −2 along a straight line. If its moves with an initial velocity [...]
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Tags: A particle moves with a constant acceleration a=2 ms −2 along a straight line. If its moves with an initial velocity of 5 ms −1 , then obtain an expression for its instantaneous velocity. ,
If cs be the velocity of sound in air and c be the rms velocity, then
26
Aug
If cs be the velocity of sound in air and c be the rms velocity, then If cs be the velocity of sound in air and c be the rms velocity then August 26, 2020 Category: Chapter 18 - Thermodynamics , NEET Last 32 Years Solved 1988 - 2019 Physics and Chemistry Video Solutions , [...]
Posted in: Chapter 18 - Thermodynamics , NEET Last 32 Years Solved 1988 - 2019 Physics and Chemistry Video Solutions , Physics ,
Tags: If cs be the velocity of sound in air and c be the rms velocity , then ,
The degrees of freedom of molecule of a triatomic gas are
26
Aug
The degrees of freedom of molecule of a triatomic gas are The degrees of freedom of molecule of a triatomic gas are August 26, 2020 Category: Chapter 18 - Thermodynamics , NEET Last 32 Years Solved 1988 - 2019 Physics and Chemistry Video Solutions , Physics ,
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Let the instantaneous velocity of a rocket just after launching, be given by the expression v = 2t + 3t^2 (where v is in m/s and t is in seconds). Find out the distance travelled by the rocket from t=2 s to t=3 s.
26
Aug
Let the instantaneous velocity of a rocket just after launching, be given by the expression v = 2t + 3t^2 (where v is in m/s and t is in seconds). Find out the distance travelled by the rocket from t=2 s to t=3 s. be given by the expression v = 2t + 3t^2 (where [...]
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Tags: be given by the expression v = 2t + 3t^2 (where v is in m/s and t is in seconds). Find out the distance travelled by the rocket from t=2 s to t=3 s. , Let the instantaneous velocity of a rocket just after launching ,
A particle starts moving and its displace-ment after t seconds is given in meter by the relation x=5+4t+3t^2. Calculate the magnitude of its a. Initial velocity b. Velocity at t=3s c. Acceleration
26
Aug
A particle starts moving and its displace-ment after t seconds is given in meter by the relation x=5+4t+3t^2. Calculate the magnitude of its a. Initial velocity b. Velocity at t=3s c. Acceleration A particle starts moving and its displace-ment after t seconds is given in meter by the relation x=5+4t+3t^2. Calculate the magnitude of its [...]
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Tags: A particle starts moving and its displace-ment after t seconds is given in meter by the relation x=5+4t+3t^2. Calculate the magnitude of its a. Initial velocity b. Velocity at t=3s c. Acceleration ,
Sita is driving along a staight highway in her car. At time t = 0, when Sita is moving at 10 ms^-1 in the positive x-direction, she passes a signpost at x = 50 m. Here acceleration is a function of time: a = 2.0 ms^-2 – (1/10 ms^-3)t a. Derive expressions for her velocity and position as functions of time. b. At what time is her velocity greatest? c. What is the maximum velocity? d. Where is the car when it reaches the maximum velocity?
26
Aug
Sita is driving along a staight highway in her car. At time t = 0, when Sita is moving at 10 ms^-1 in the positive x-direction, she passes a signpost at x = 50 m. Here acceleration is a function of time: a = 2.0 ms^-2 – (1/10 ms^-3)t a. Derive expressions for her velocity [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: At t=0 , Calculate the area enclosed under the curve f(x)=x^2 between the limits x=2 and x=3 (figure) , Sita is driving along a staight highway in her car. At time t=0 , when Sita is moving at 10ms^-1 in the positive x-direction ,
At t = 0, a body starts from origin with some initial velocity. The displacement x(m) of the body varies with time t(s) as x = – (2/3)t^2 + 16t + 2. Find the initial velocity of the body and also find how long does the body take to come to rest? What is the acceleration of the body when it comes to rest?
26
Aug
At t = 0, a body starts from origin with some initial velocity. The displacement x(m) of the body varies with time t(s) as x = – (2/3)t^2 + 16t + 2. Find the initial velocity of the body and also find how long does the body take to come to rest? What is the [...]
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Tags: At t=0 , Calculate the area enclosed under the curve f(x)=x^2 between the limits x=2 and x=3 (figure) ,
The equation of state for 5g of oxygen at a pressure P and temperature T, when occupying a volume V, will be.
26
Aug
The equation of state for 5g of oxygen at a pressure P and temperature T, when occupying a volume V, will be. The equation of state for 5g of oxygen at a pressure P and temperature T when occupying a volume V will be August 26, 2020 Category: Chapter 18 - Thermodynamics , NEET Last [...]
Posted in: Chapter 18 - Thermodynamics , NEET Last 32 Years Solved 1988 - 2019 Physics and Chemistry Video Solutions , Physics ,
Tags: The equation of state for 5g of oxygen at a pressure P and temperature T , when occupying a volume V , will be ,
Calculate the area enclosed under the curve f(x)=x^2 between the limits x=2 and x=3 (figure)
26
Aug
Calculate the area enclosed under the curve f(x)=x^2 between the limits x=2 and x=3 (figure) Calculate the area enclosed under the curve f(x)=x^2 between the limits x=2 and x=3 (figure) August 26, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: Calculate the area enclosed under the curve f(x)=x^2 between the limits x=2 and x=3 (figure) ,