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2 years ago

On Earth, a scale shows that you weigh 490 N. What is your mass?

Physics

2 answers:

vesna_86 [32]2 years ago

5 0

A 50 kg

490N = m(kg) *9.8(m/s^2)=>m=490/9.8 = 50kg

Romashka [77]2 years ago

5 0

Answer:

Explanation:

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A driver entering the outskirts of a city takes her foot off the accelerator so that the car slows down from 90 km/h to 50 km/h

Varvara68 [4.7K]

Answer:

Explanation:

a = (vf - vi) / t

a = (50 - 90) / 10.0

a = -4 km/h/s(1000 m/km / 3600 s/h)

a = - 1.11 m/s²

5 0

2 years ago

18. Compared to its weight on Earth, a 5 kg object on the moon will weigh A. the same amount. B. less. C. more.

s2008m [1.1K]

Answer:

B. less

Explanation:

acceleration due to gravity on Earth, g = 9.8 m/s²

acceleration due to gravity on Moon, g = 1.6 m/s²

Given mass of the object as, m = 5 kg

Weight of an object is given as, W = mg

Weight of the object on Earth, W = 5 x 9.8 = 49 N

Weight of the object on Moon, W = 5 x 1.6 = 8 N

Therefore, the object weighs less on the moon compared to its weight on Earth.

The correct option is "B. less"

8 0

3 years ago

An object has a mass of 13.5 kilograms. What force is required to accelerate it to a rate of 9.5 m/s2?

Zigmanuir [339]

Force can be expressed as the product of mass and acceleration. Mathematically, that's F = m(a). Plugging the given into the equation, we have F = (13.5 kg)(9.5 m/s²) = 128.3 kg.m/s² or 128.3 N<span>. </span>

4 0

3 years ago

HELP ASAP PLZ

attashe74 [19]

Answer:

Increases

Explanation:

Because acceleration goes higher

5 0

4 years ago

Use appropriate units and significant figures. USE THE LAW OF COSINES AND LAW OF SINES.

N76 [4]

Answer:

The resultant velocity is 86.1 mi/h.

Explanation:

The law of cosines is given by:

$c^{2} = a^{2} + b^{2} - 2abcos(\theta)$

Where:

c: is the resultant velocity =?

a: is the velocity of the plane = 75.0 mi/h

b: is the velocity of the wind = 15.0 mi/h

θ: is the angle between "a" and "b"

The angle between "a" and "b" can be found as follows:

$\theta = 180.0 - 46.0 = 134.0 ^{\circ}$

Now, by using the law of cosines we have:

$c^{2} = (75.0)^{2} + (15.0)^{2} - 2*75.0*15.0*cos(134.0) = 7413.0$

$c = 86.1 mi/h$

Therefore, the resultant velocity is 86.1 mi/h.

The law of sines is:

$\frac{a}{sin(\gamma)} = \frac{b}{sin(\alpha)} = \frac{c}{sin(\theta)}$

Where:

γ: is the angle between "b" and "c"

α: is the angle between "a" and "c"

So, if we want to find "c" by using the law of sines, we need to know another angle besides θ (γ or α), and the statement does not give us.

I hope it helps you!

3 0

3 years ago