Which Would Require A Greater Force Accelerating A 5kg Mass At 2m S2 Or A 2Kg Mass At 4 M S2?

by | Last updated on January 24, 2024

, , , ,

We can see that the force applied in the first case is greater than the force applied in the second case. Hence, accelerating a

2 kg mass

at 5m/s2 requires more force than accelerating a 4 kg mass at 2m/s2.

Which would require a greater force accelerating a 2Kg mass at 5ms 2 or a 5kg mass at 3ms 2?

YOUR ANSWER IS ACCELERATING A

2Kg MASS AT 5m

/s^2 would require a greater force.

Which would require a greater force accelerating a 5kg mass?

The relation between Force , mass and acceleration is given by , Now , The force required by the body in first case is , Hence , The force required by the body with mass 5 kg and acceleration 5 m/s2 is 25 N. ∴

The body with 5 kg mass and 5 m

/s2 requires greater force.

Which would require a greater force accelerating a 2 kg mass at 5 ms or a 5 kg mass at 3 ms?

Which would require a greater force accelerating a 2 kg mass at 5 ms2 or a 4 kg mass at 2ms2. Hello, The formula for force when mass and acceleration are given is Force (F)= Mass (M)* Acceleration(A). So the force required for 2kg mass at 5ms2 is more than the force required for accelerating 4kg mass at 2ms2.

Which would require a greater force accelerating a 10 kg mass at 5m s2 or a 20kg mass at 2m s2?

Which would require a greater force – accelerating a 10 g mass at 5 m/ s^(2) or 20 g mass at 2 m/s^(2)? Thus,

a greater force of 0.05 N

is required for accelerating a 10 g mass.

What is the force required to accelerate a 2kg mass by 5ms 2?

∴F=(2kg)×(3ms2). ∴F=6kgms2=6 Newton. =

6N

. Therefore, Force required to accelerate the body is 6N.

Which would require a greater force accelerating a 1kg mass at 10m s2 or a 2kg mass at 4m s2?


Body of 2 kg mass

will require a greater force to accelerate it with 10 m/s2. Plz Mark It As A Brainliest Answer.

What is the weight of 5kg mass?

1 Expert Answer

In MKS, the a for gravity is 9.8m/sec

2

and so the weight is 5*9.8 =

49 Newtons

.

Which would require more force?

Answer:

First case

has greater force required than the second case.

Which would require a greater force accelerating a 5 kg mass at 5 ms or a 3 kg mass at 7 ms?

Correct Question : Which would require a greater force body accelerating a 5 m/s2 of 5kg mass (or) bodyacceleration at 7 m/s2 of 3 kg mass. Hence , The force required by the body with mass 5 kg and acceleration 5 m/s2 is

25 N

. ∴ The body with 5 kg mass and 5 m/s2 requires greater force.

Which would require a greater force accelerating a 3 kg mass at 5 ms 2 or a 6 kg mass at 2 ms 2?

Force ∝ Acceleration

Greater the acceleration greater will be the force. As they are directly proportional to each other. Hence,

6 kg mass at 2

m/s2; require a greater force.

Which would require a greater force to accelerate a 0.5 kg mass at 5 m/s2 or a 4 kg mass at 2 m/s2 give reasons also find change in momentum in both cases?

Which would require a greater force to accelerate a 0.5 kg mass at 5 m/s2 or a 4 kg mass at 2 m/s2 give reasons also find change in momentum in both cases? Answer. ∴

4 kg mas requires greater force

.

What would require a greater force accelerating a 10g mass?

We find that

F1>F2

, hence more force is required to accelerate a 10 g mass at 5ms−2, than accelerating a 20 g mass at 2ms−2.

Which would require a greater force accelerating 10 gram?

Thus,a greater force

of 0.05N

is required for accelerating a 10 mass.

What force is required to accelerate a body with a mass of 15?


120 N

is required to accelerate a body with a mass of 15 kilograms at a rate of 8 m/s2. This answer has been confirmed as correct and helpful.

What force is needed to accelerate a 2 kg mass at rest to a rate of 1 m s2?

The definition of the standard metric unit of force is stated by the above equation.

One Newton

is defined as the amount of force required to give a 1-kg mass an acceleration of 1 m/s/s.

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.