Part 1

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Two stones are projected so as to reach the same distance from the point of projection on a horizontal surface. The maximum height reached by one exceeds the other by an amount equal to half the sum of the heights attained by them. Then the angles of projection for the stones are (in degrees)
10
Sep
Two stones are projected so as to reach the same distance from the point of projection on a horizontal surface. The maximum height reached by one exceeds the other by an amount equal to half the sum of the heights attained by them. Then the angles of projection for the stones are (in degrees) A [...]
Posted in: Chapter 4 - Motion in Plane , MTG NEET Physics , Part 1 ,
Tags: A particle is projected with a velocity v , so that its range on a horizontal plane is twice the greatest height attained. If g is acceleration due to gravity , then its range is: ,
A particle is projected with a velocity v, so that its range on a horizontal plane is twice the greatest height attained. If g is acceleration due to gravity, then its range is:
10
Sep
A particle is projected with a velocity v, so that its range on a horizontal plane is twice the greatest height attained. If g is acceleration due to gravity, then its range is: A particle is projected with a velocity v so that its range on a horizontal plane is twice the greatest height attained. [...]
Posted in: Chapter 4 - Motion in Plane , MTG NEET Physics , Part 1 ,
Tags: A particle is projected with a velocity v , so that its range on a horizontal plane is twice the greatest height attained. If g is acceleration due to gravity , then its range is: ,
The range of a projectile is R when the angle of projection is 40. For the same velocity of projection and range, the other possible angle of projection is
10
Sep
The range of a projectile is R when the angle of projection is 40. For the same velocity of projection and range, the other possible angle of projection is the other possible angle of projection is The range of a projectile is R when the angle of projection is 40. For the same velocity of [...]
Posted in: Chapter 4 - Motion in Plane , MTG NEET Physics , Part 1 ,
Tags: the other possible angle of projection is , The range of a projectile is R when the angle of projection is 40. For the same velocity of projection and range ,
A particle is projected at an angle of 60o above the horizontal with a sped of 10m/s. After some time, the direction of its velocity makes an angle of 30 above the horizontal. The speed of the particle at this instant is
10
Sep
A particle is projected at an angle of 60o above the horizontal with a sped of 10m/s. After some time, the direction of its velocity makes an angle of 30 above the horizontal. The speed of the particle at this instant is A particle is projected at an angle of 60o above the horizontal with [...]
Posted in: Chapter 4 - Motion in Plane , MTG NEET Physics , Part 1 ,
Tags: A particle is projected at an angle of 60o above the horizontal with a sped of 10m/s. After some time , the direction of its velocity makes an angle of 30 above the horizontal. The speed of the particle at this instant is ,
the horizontal range is four time the maximum height attained by a projectile. the angle of projection is
10
Sep
the horizontal range is four time the maximum height attained by a projectile. the angle of projection is the horizontal range is four time the maximum height attained by a projectile. the angle of projection is September 10, 2020 Category: Chapter 4 - Motion in Plane , MTG NEET Physics , Part 1 ,
Posted in: Chapter 4 - Motion in Plane , MTG NEET Physics , Part 1 ,
Tags: the horizontal range is four time the maximum height attained by a projectile. the angle of projection is ,
Three projectiles A, B and C are projected at an angle of 30o, 45o, 60o respectively. If RA​, RB​ and RC​ are ranges of A, B and C respectively, then (velocity of projection is same for A, B and C):
10
Sep
Three projectiles A, B and C are projected at an angle of 30o, 45o, 60o respectively. If RA​, RB​ and RC​ are ranges of A, B and C respectively, then (velocity of projection is same for A, B and C): 45o 60o respectively. If RA​ B and C are projected at an angle of 30o [...]
Posted in: Chapter 4 - Motion in Plane , MTG NEET Physics , Part 1 ,
Tags: 45o , 60o respectively. If RA​ , B and C are projected at an angle of 30o , B and C respectively , b and c`. , RB​ and RC​ are ranges of A , then (velocity of projection is same for A , Three projectiles A ,
a particle is thrown at an angle of 45 with horizontal. if it remains in air for 1s, what is the initial velocity
10
Sep
a particle is thrown at an angle of 45 with horizontal. if it remains in air for 1s, what is the initial velocity a particle is thrown at an angle of 45 with horizontal. if it remains in air for 1s what is the initial velocity September 10, 2020 Category: Chapter 4 - Motion in [...]
Posted in: Chapter 4 - Motion in Plane , MTG NEET Physics , Part 1 ,
Tags: a particle is thrown at an angle of 45 with horizontal. if it remains in air for 1s , what is the initial velocity ,
A particle has an initial velocity of 3i+4j and an acceleration of 0.41+ 0.3). Its speed after 10 s is
10
Sep
A particle has an initial velocity of 3i+4j and an acceleration of 0.41+ 0.3). Its speed after 10 s is A particle has an initial velocity of 3i+4j and an acceleration of 0.41+ 0.3). Its speed after 10 s is September 10, 2020 Category: Chapter 4 - Motion in Plane , MTG NEET Physics , [...]
Posted in: Chapter 4 - Motion in Plane , MTG NEET Physics , Part 1 ,
Tags: A particle has an initial velocity of 3i+4j and an acceleration of 0.41+ 0.3). Its speed after 10 s is ,
A particle starts moving from point (2, 10, 1). Displacement for the particle is 8 i^ – 2j^​ + k^. The final coordinates of the particle is
10
Sep
A particle starts moving from point (2, 10, 1). Displacement for the particle is 8 i^ – 2j^​ + k^. The final coordinates of the particle is 1). Displacement for the particle is 8 i^ - 2j^​ + k^. The final coordinates of the particle is 10 A particle starts moving from point (2 September [...]
Posted in: Chapter 4 - Motion in Plane , MTG NEET Physics , Part 1 ,
Tags: 1). Displacement for the particle is 8 i^ - 2j^​ + k^. The final coordinates of the particle is , 10 , A particle starts moving from point (2 ,
The position of a particle moving in the x-y plane at any time t is given by : x=(3t^2−6t) metres; y=(t^2−2t) metres. Select the correct statement.
10
Sep
The position of a particle moving in the x-y plane at any time t is given by : x=(3t^2−6t) metres; y=(t^2−2t) metres. Select the correct statement. The position of a particle moving in the x-y plane at any time t is given by : x=(3t^2−6t) metres; y=(t^2−2t) metres. Select the correct statement. September 10, 2020 [...]
Posted in: Chapter 4 - Motion in Plane , MTG NEET Physics , Part 1 ,
Tags: The position of a particle moving in the x-y plane at any time t is given by : x=(3t^2−6t) metres; y=(t^2−2t) metres. Select the correct statement. ,