Physics, asked by Lucky98374, 4 months ago

Find the acceleration of body of mass 2 kg from the figure given.
( IT IS GIVEN IN BOOK THAT ANSWER IS 5m/s2)​

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Answers

Answered by sejalrah
3

Answer:

Given:

The mass of the body is m=2kg

The force applied on the body F=7N

The coefficient of kinetic friction =0.1

Since the body starts from rest, the initial velocity of body is zero.

Time at which the work is to be determined is t=10s

The acceleration produced in the body by the applied force is given by Newtons second law of motion as:

a

=

m

F

=

2

7

=3.5m/s

2

Frictional force is given as:

f=μg=0.1×2×9.8=1.96

The acceleration produced by the frictional force:

a"=−

2

1.96

=−0.98m/s

2

Therefore, the total acceleration of the body:

a

+a"=3.5+(−0.98)=2.52m/s

2

The distance traveled by the body is given by the equation of motion:

s=ut+

2

1

at

2

=0+

2

1

×2.52×(10)

2

=126 m

(a) Work done by the applied force,

W

a

=F⋅s=7×126=882 J

(b) Work done by the frictional force,

W

f

=F⋅s=1.96×126=247 J

(c), (d)

From the first equation of motion, final velocity can be calculated as:

v=u+at

=0+2.52×10=25.2m/s

So, the change in kinetic energy is

ΔK=

2

1

mv

2

2

1

mu

2

=

2

1

2(v

2

−u

2

)=(25.2)

2

−0

2

=635 J

The distance traveled by the body is given by the equation of motion:

s=ut+

2

1

at

2

=0+

2

1

×2.52×(10)

2

=126 m

Net force =7+(1.96)=5.04 N

Work done by the net force,

W

net

=5.04×126=635 j

Answered by abinabhiraj
1

Answer:

it is 5m/s

Explanation:

mg towards down in place of brick is 2*10 = 20N

mg is the weight exerted by the brick towards down.

g=10m/s^2

The tension on the string is 30N as given the qn.

But since the weight and Tension are acting against each other 30-20 = 10N

So 10N is the final force acting.

F=ma

so 10=2*a

thus a=10/2=5m/s..

Hope you got it......

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