Question Answers

Sahay Sir > Question Answers
In the figure the blocks are of equal mass. The pulley is fixed. In the position shown, A moves down with a speed u and vb = the speed of B
08
Sep
In the figure the blocks are of equal mass. The pulley is fixed. In the position shown, A moves down with a speed u and vb = the speed of B A moves down with a speed u and vb = the speed of B In the figure the blocks are of equal mass. The [...]
Posted in: Cengage NEET by C.P Singh , Chapter 6 - Newton's Laws of Motion , Part 1 ,
Tags: A moves down with a speed u and vb = the speed of B , In the figure the blocks are of equal mass. The pulley is fixed. In the position shown ,
In the arrangement shown in the figure, the ends P and Q of an un-stretchable string move downwards with uniform speed U. Pulleys A and B are fixed. The mass M moves upwards with a speed:
08
Sep
In the arrangement shown in the figure, the ends P and Q of an un-stretchable string move downwards with uniform speed U. Pulleys A and B are fixed. The mass M moves upwards with a speed: In the arrangement shown in the figure the ends P and Q of an un-stretchable string move downwards with [...]
Posted in: Cengage NEET by C.P Singh , Chapter 6 - Newton's Laws of Motion , Part 1 ,
Tags: In the arrangement shown in the figure , the ends P and Q of an un-stretchable string move downwards with uniform speed U. Pulleys A and B are fixed. The mass M moves upwards with a speed: ,
The acceleration of m is 1) g/3 up the plane , 2) g/3 down the plane , 3) 2g/3 up the plane, 4) 2g/3 down the plane
08
Sep
The acceleration of m is 1) g/3 up the plane , 2) g/3 down the plane , 3) 2g/3 up the plane, 4) 2g/3 down the plane 2) g/3 down the plane 3) 2g/3 up the plane 4) 2g/3 down the plane The acceleration of m is 1) g/3 up the plane September 8, 2020 [...]
Posted in: Cengage NEET by C.P Singh , Chapter 6 - Newton's Laws of Motion , Part 1 ,
Tags: 2) g/3 down the plane , 3) 2g/3 up the plane , 4) 2g/3 down the plane , The acceleration of m is 1) g/3 up the plane ,
The acceleration of the block A and B are 1) 10g/13 forward, 5g/13 downward , 2) 5g/13 forward, 10g/13 downward , 3) 6g/13 forward, 9g/13 downward , 4) 9g/13 forward, 6g/13 downward
08
Sep
The acceleration of the block A and B are 1) 10g/13 forward, 5g/13 downward , 2) 5g/13 forward, 10g/13 downward , 3) 6g/13 forward, 9g/13 downward , 4) 9g/13 forward, 6g/13 downward 10g/13 downward 2) 5g/13 forward 3) 6g/13 forward 4) 9g/13 forward 5g/13 downward 6g/13 downward 9g/13 downward The acceleration of the block A [...]
Posted in: Cengage NEET by C.P Singh , Chapter 6 - Newton's Laws of Motion , Part 1 ,
Tags: 10g/13 downward , 2) 5g/13 forward , 3) 6g/13 forward , 4) 9g/13 forward , 5g/13 downward , 6g/13 downward , 9g/13 downward , The acceleration of the block A and B are 1) 10g/13 forward ,
The acceleration of the block A and B are 1) g/7 downward, 2g/7 upward , 2) 2g/7 downward, g/7 upward , 3) 3g/7 downward, g/7 upward , 4) 4g/7 downward, 2g/7 upward
08
Sep
The acceleration of the block A and B are 1) g/7 downward, 2g/7 upward , 2) 2g/7 downward, g/7 upward , 3) 3g/7 downward, g/7 upward , 4) 4g/7 downward, 2g/7 upward 2) 2g/7 downward 2g/7 upward 3) 3g/7 downward 4) 4g/7 downward g/7 upward The acceleration of the block A and B are 1) [...]
Posted in: Cengage NEET by C.P Singh , Chapter 6 - Newton's Laws of Motion , Part 1 ,
Tags: 2) 2g/7 downward , 2g/7 upward , 3) 3g/7 downward , 4) 4g/7 downward , g/7 upward , The acceleration of the block A and B are 1) g/7 downward ,
The acceleration of the block A is 1) 2g/3 upward 2) g/3 upwards 3) 2g/3 downward 4) g/3 downward
08
Sep
The acceleration of the block A is 1) 2g/3 upward 2) g/3 upwards 3) 2g/3 downward 4) g/3 downward The acceleration of the block A is 1) 2g/3 upward 2) g/3 upwards 3) 2g/3 downward 4) g/3 downward September 8, 2020 Category: Cengage NEET by C.P Singh , Chapter 6 - Newton's Laws of Motion [...]
Posted in: Cengage NEET by C.P Singh , Chapter 6 - Newton's Laws of Motion , Part 1 ,
Tags: The acceleration of the block A is 1) 2g/3 upward 2) g/3 upwards 3) 2g/3 downward 4) g/3 downward ,
Consider the situation as shown in the figure. a) The acceleration of M is 2g/3 . 2) The tension in the string connecting A and B is Mg/3
08
Sep
Consider the situation as shown in the figure. a) The acceleration of M is 2g/3 . 2) The tension in the string connecting A and B is Mg/3 Consider the situation as shown in the figure. a) The acceleration of M is 2g/3 . 2) The tension in the string connecting A and B is [...]
Posted in: Cengage NEET by C.P Singh , Chapter 6 - Newton's Laws of Motion , Part 1 ,
Tags: Consider the situation as shown in the figure. a) The acceleration of M is 2g/3 . 2) The tension in the string connecting A and B is Mg/3 ,
The acceleration of light pulley is
08
Sep
The acceleration of light pulley is The acceleration of light pulley is September 8, 2020 Category: Cengage NEET by C.P Singh , Chapter 6 - Newton's Laws of Motion , Part 1 ,
Posted in: Cengage NEET by C.P Singh , Chapter 6 - Newton's Laws of Motion , Part 1 ,
Tags: The acceleration of light pulley is ,
A simple pendulum with a bob of mass m is suspended from the roof of a car moving with a horizontal acceleration a. The angle made by the string with vertical is
08
Sep
A simple pendulum with a bob of mass m is suspended from the roof of a car moving with a horizontal acceleration a. The angle made by the string with vertical is A simple pendulum with a bob of mass m is suspended from the roof of a car moving with a horizontal acceleration a. [...]
Posted in: Cengage NEET by C.P Singh , Chapter 6 - Newton's Laws of Motion , Part 1 ,
Tags: A simple pendulum with a bob of mass m is suspended from the roof of a car moving with a horizontal acceleration a. The angle made by the string with vertical is ,
When forces F1​, F2​ and F3​ are acting on a particle of mass ′m′ such that F2​ & F3​ are mutually perpendicular, then the particles remains stationary. If the force F1​ is now removed then the magnitude of the acceleration of the particle is
08
Sep
When forces F1​, F2​ and F3​ are acting on a particle of mass ′m′ such that F2​ & F3​ are mutually perpendicular, then the particles remains stationary. If the force F1​ is now removed then the magnitude of the acceleration of the particle is F2​ and F3​ are acting on a particle of mass ′m′ [...]
Posted in: Cengage NEET by C.P Singh , Chapter 6 - Newton's Laws of Motion , Part 1 ,
Tags: F2​ and F3​ are acting on a particle of mass ′m′ such that F2​ & F3​ are mutually perpendicular , then the particles remains stationary. If the force F1​ is now removed then the magnitude of the acceleration of the particle is , When forces F1​ ,