Part 1

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Two cars of unequal masses use similar tyres. If they are moving with same initial speed, the minimum stopping distance.
09
Sep
Two cars of unequal masses use similar tyres. If they are moving with same initial speed, the minimum stopping distance. the minimum stopping distance. Two cars of unequal masses use similar tyres. If they are moving with same initial speed September 9, 2020 Category: Cengage NEET by C.P Singh , Chapter 7 - Friction , [...]
Posted in: Cengage NEET by C.P Singh , Chapter 7 - Friction , Part 1 ,
Tags: the minimum stopping distance. , Two cars of unequal masses use similar tyres. If they are moving with same initial speed ,
A car is moving along a straight horizontal road with a speed v0. If the coefficient of friction between the tyres and the road is μ, the shortest distance in which the car can be stopped is
09
Sep
A car is moving along a straight horizontal road with a speed v0. If the coefficient of friction between the tyres and the road is μ, the shortest distance in which the car can be stopped is A car is moving along a straight horizontal road with a speed v0. If the coefficient of friction [...]
Posted in: Cengage NEET by C.P Singh , Chapter 7 - Friction , Part 1 ,
Tags: A car is moving along a straight horizontal road with a speed v0. If the coefficient of friction between the tyres and the road is μ , the shortest distance in which the car can be stopped is ,
Consider a car moving on a straight road with a speed of 100 m/s. The distance at which the car car be stopped is
09
Sep
Consider a car moving on a straight road with a speed of 100 m/s. The distance at which the car car be stopped is Consider a car moving on a straight road with a speed of 100 m/s. The distance at which the car car be stopped is September 9, 2020 Category: Cengage NEET by [...]
Posted in: Cengage NEET by C.P Singh , Chapter 7 - Friction , Part 1 ,
Tags: Consider a car moving on a straight road with a speed of 100 m/s. The distance at which the car car be stopped is ,
A spring of spring constant k is broken in the length ratio 1:3. The spring constant of larger part will be
08
Sep
A spring of spring constant k is broken in the length ratio 1:3. The spring constant of larger part will be A spring of spring constant k is broken in the length ratio 1:3. The spring constant of larger part will be September 8, 2020 Category: Cengage NEET by C.P Singh , Chapter 6 - [...]
Posted in: Cengage NEET by C.P Singh , Chapter 6 - Newton's Laws of Motion , Part 1 ,
Tags: A spring of spring constant k is broken in the length ratio 1:3. The spring constant of larger part will be ,
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 ,