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grandymaker [24]

4 years ago

3

Two particles with oppositely signed charges are held a fixed distance apart. The charges are equal in magnitude and they exert

a force on each other. Half of one of the charges is transferred to the other charge and the distance between them is unchanged. What happens to the force exerted on one charge by the other charge? Group of answer choices The force is one fourth as large The force is doubled The force is unchanged The force is half as large The force is four times as large

1 answer:

postnew [5]4 years ago

5 0

Answer:

Force will become $\frac{3}{4}$ times.

Explanation:

We have given two charge of opposite sign that are held at a fixed distance

According to coulombs law force between two charges is given by

$F_1=\frac{1}{4\pi \epsilon _0}\frac{q_1q_1}{r^2}$

let initially the charges are $q_1=q\ and\ q_2=q$

So force $F=\frac{Kq^2}{r^2}$

Now according to question half of the charge is transferred to second charge particle

So $q_1=\frac{q}{2}\ and\ q_2=\frac{3q}{2}$

As the distance remain unchanged

So force $F_2=\frac{K3q^2}{4r^2}$

So $\frac{F_1}{F_2}=\frac{4}{3}$

$F_2=\frac{3}{4}F_1$

So force will become $\frac{3}{4}$ times.

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3 0

3 years ago

A 50.0 kg object rests on a horizontal surface. The coefficient of static friction between the box and the surface is 0.300 and

MariettaO [177]

Answer:

$f=140\ N$

Explanation:

Given:

mass of the object on a horizontal surface, $m=50\ kg$

coefficient of static friction, $\mu_s=0.3$

coefficient of kinetic friction, $\mu_k=0.2$

horizontal force on the object, $F=140\ N$

<u>Now the value of limiting frictional force offered by the contact surface tending to have a relative motion under the effect of force:</u>

$F_s=\mu_s.N$

where:

$N=$ normal force of reaction acting on the body= weight of the body

$F_s=0.3\times (50\times 9.8)$

$F_s=147\ N$

As we know that the frictional force acting on the body is always in the opposite direction:

So, the frictional force will not be at its maximum and will be equal in magnitude to the applied external force and hence the body will not move.

so, the frictional force will be:

$f=140\ N$

8 0

3 years ago

An automobile rounds a curve of radius 50.0 m on a flat road.

bixtya [17]

Answer:

14m/s

Explanation:

Given parameters:

Radius of the curve = 50m

Centripetal acceleration = 3.92m/s²

Unknown:

Speed needed to keep the car on the curve = ?

Solution:

The centripetal acceleration is the inwardly directly acceleration needed to keep a body along a curved path.

It is given as;

a = $\frac{v^{2} }{r}$

a is the centripetal acceleration

v is the speed

r is the radius

Now insert the parameters and find v;

v² = ar

v² = 3.92 x 50 = 196

v = √196 = 14m/s

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4 years ago

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ICE Princess25 [194]

Answer: No

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8 0

3 years ago

Read 2 more answers

A sports car is advertised to be able to stop in a distance of 50.0 m from a speed of 80 km. What is its acceleration and how ma

Flauer [41]

Explanation:

Given that,

Initial speed of the sports car, u = 80 km/h = 22.22 m/s

Final speed of the runner, v = 0

Distance covered by the sports car, d = 80 km = 80000 m

Let a is the acceleration of the sports car. It can be calculated using third equation of motion as :

$v^2-u^2=2ad$

$a=\dfrac{v^2-u^2}{2d}$

$a=\dfrac{0-(22.22)^2}{2\times 80000}$

$a=-0.00308\ m/s^2$

Value of g, $g=9.8\ m/s^2$

$a=\dfrac{-0.00308}{9.8}\ m/s^2$

$a=(-0.000314)\ g\ m/s^2$

Hence, this is required solution.

8 0

3 years ago