Which Pair Of Forces Will Never Give Resultant Force Of 2 Newton?

by | Last updated on January 24, 2024

, , , ,


1 N and 3 N

.

Which of the following pair of forces Cannot be added to give a resultant force of 4 Newton?


2N and 2N

.

Which pair of the following forces will never give resultant force of 2 Newton?


1 N and 3 N

.

What is the resultant force of the two forces?

The resultant force is the

single force that has the same effect as two or more forces acting together

. Two forces that act in the same direction produce a resultant force that is larger than either individual force.

Which of the following combination can not give a resultant of 4 N?

It is because maximum Resultant force will be (8+2)=10N and Minimum will be

(8-2)=6N

. 4N does not lie within this value range Therefore It is not possible to have it as resultant.

When two vectors are added together their resultant is a minimum the angle between them is?

The resultant of two vector is minimum when both are equal and in opposite direction i.e. the angle between the vector is

180 degrees

.

Can the resultant of two forces 10N and 6N be equal to?

The maximum resultant of 10N and 6N is

(10+6=16N)

. Key idea →The force must lie between the range of maximum and minimum resultant of these vectors . In option (b), 4N ‹8N ‹16N , it lies between the range So, this is correct answer. Hence, option (b) is correct.

How do you the following forces the resultant of which Cannot be 10 Newton?

The resultant of two forces can lie between A-B and A+B,i. e.,12-1=11Nand12+1=

13

N.

What is the resultant of a B?

The resultant is

the vector sum of two or more vectors

. It is the result of adding two or more vectors together. If displacement vectors A, B, and C are added together, the result will be vector R. … If two or more force vectors are added, then the result is a resultant force.

Which of the following Cannot be the resultant of 5 and 10?

Which one of the following cannot be the resultant of the vectors of magnitude 5 and 10 ? When the vectors act in the same direction, their resultant is

(10+5)=15 units

. This is the maximum value and when the act in the opposite direction, their resultant is (10-5)=5 units. This is the minimum value.

What is the formula for resultant force?

Newton's second law can either be expressed as “

resultant force = mass × acceleration

” or “The acceleration of an object is directly proportional to the resultant (or net) force, in the same direction as the force, and inversely proportional to the mass of the object.”

Is a resultant force?

The resultant force on an object is: the force left over after

equal

and opposite forces have cancelled out; the one force which would have the same effect as all of the forces; the vector sum of the forces on the object.

What is the formula for resultant of two vectors?


R = A + B

. Vectors in the opposite direction are subtracted from each other to obtain the resultant vector. Here the vector B is opposite in direction to the vector A, and R is the resultant vector.

Can the resultant of 3 vectors be zero?

Resultant of three vectors will be zero if all of the below conditions are applicable: … If the direction of resultant of those two vectors

is exactly opposite to the direction of the third vector

. 3. If the magnitude of resultant of two vectors is exactly equal to the magnitude of the third vector.

Can the resultant of two unequal forces be equal to zero?

It is

graphically impossible to

take two directed line segments (vectors) of unequal length and place them tail to tip and end up with a resultant of zero. Similarly, you can not add two integers of unequal magnitude and end up with zero.

Which of the following pairs of forces Cannot be added to give a resultant force of 4 N * 1 point?

Therefore, the pair of

force 2 N and 8 N

cannot be added to give a resultant force of 4 N.

David Evans
Author
David Evans
David is a seasoned automotive enthusiast. He is a graduate of Mechanical Engineering and has a passion for all things related to cars and vehicles. With his extensive knowledge of cars and other vehicles, David is an authority in the industry.