3 years ago

Fre33 points ! have a good study session yall!

Physics

2 answers:

Svetlanka [38]3 years ago

7 0

Answer:

Appreciate you.

Explanation:

Lemme get brainliest might aswell.

deff fn [24]3 years ago

3 0

Answer:

Thanks fellow, have a good study session too. Big up

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It takes a minimum distance of 57.46 m to stop a car moving at 13.0 m/s by applying the brakes (without locking the wheels). Ass

vivado [14]

Answer:

The minimum stopping distance when the car is moving at

29.0 m/sec = 285.94 m

Explanation:

We know by equation of motion that,

$v^{2}=u^{2}+2\cdot a \cdot s$

Where, v= final velocity m/sec

u=initial velocity m/sec

a=Acceleration m/ $Sec^{2}$

s= Distance traveled before stop m

Case 1

u= 13 m/sec, v=0, s= 57.46 m, a=?

$0^{2} = 13^{2} + 2 \cdot a \cdot57.46$

a = -1.47 m/ $Sec^{2}$ (a is negative since final velocity is less then initial velocity)

Case 2

u=29 m/sec, v=0, s= ?, a=-1.47 m/ $Sec^{2}$ (since same friction force is applied)

$v^{2} = 29^{2} - 2 \cdot 1.47 \cdot S$

s = 285.94 m

Hence the minimum stopping distance when the car is moving at

29.0 m/sec = 285.94 m

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3 years ago

Does current in Helmholtz coils flow in the same or opposite direction through each coil? Explain.

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A 12.0 cm object is 9.0 cm from a convex mirror that has a focal length of -4.5 cm. What is the distance of the image from the m

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Answer:

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From the mirror formula;

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1/v = -1/4.5 - 1/9

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Therefore;

v = -3 cm

Hence;

Image distance is - 3cm

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