A metric unit of volume equal to a milliliter

Answer:

Explanation:

formula to be used is:  a = ∆v/∆t

where:

a = 0.09 m/s²

∆t = 10 s

∆v = a*∆t

      = (0.09 m/s²)(10 s)

       = 0.9 m/s

Vivian's final speed:

= initial speed + change in speed

= 1.3 m/s + 0.9 m/s

= 2.2 m/s

Answer:

The achievement of lifting a rocket off the ground and into space can be explained by Newton's third law of motion. What is required for a rocket to lift off into space? Thrust is required for a rocket to lift off into space, ... An object that travels around another object in space is called a satellite.

Explanation:

Answer:

The question has too wide of a focus, as though all situations can be studied at once.

Explanation:

Answer:

Choice D

Explanation:

air in the flute causes vibrations which makes sound.

Answer:

0

Explanation:

The initial velocity of an object is 15 m/s when it was thrown straight up into the air.

At maximum height, the velocity of the object is equal to 0. It starts coming  downward after that and falls ground. Height attained by the object is given by :

[tex]h=\dfrac{v^2}{2g}[/tex]

Hence,  its velocity at the peak of its flight is equal to 0.

Answer:

A. The closer a planet is to the Sun, the faster it moves.

Explanation:

According to this law, planets move around the sun in elliptical orbits. An imaginary lines drawn from the center of Sun to center of planets will sweep  equal area in equal time interval.

Answer option B,C&D  is incorrect because planets that are far away from the Sun take more time to move all around the Sun and experience less gravitational force and move slower than those near the Sun.

Answer:

a

i am never wrong

Answer:

5.95 m

Explanation:

Given that the biggest loop is 40.0 m high. Suppose the speed at the top is 10.8 m/s and the corresponding centripetal acceleration is 2g

For the car to stick to the loop without falling down, at the top of the ride, the centripetal force must be equal to the weight of the car. That is,

(MV^2) / r = mg

V^2/ r = centripetal acceleration which is equal to 2g

2 × 9.8 = 10.8^2 / r

r = 116.64 /19.6

r = 5.95 m

The only way you COULD double the period would be to make the string 4 times as long as it is now.

Answer:

i like trains 45654

Explanation:

Answer:

The ratio is   [tex]\frac{T_1}{T_2}  = 3.965  [/tex]

Explanation:

From the question we are told that

   The  radius of Phobos orbit is  R_2 =  9380 km

    The radius  of Deimos orbit is  [tex]R_1  =  23500 \  km[/tex]

Generally from Kepler's third law

    [tex]T^2 =  \frac{ 4 *  \pi^2 *  R^3}{G * M  }[/tex]

Here M is the mass of Mars which is constant

        G is the gravitational  constant

So we see that [tex]\frac{ 4 *  \pi^2  }{G * M  } =  constant[/tex]

    [tex]T^2 = R^3   *  constant [/tex]      

=>  [tex][\frac{T_1}{T_2} ]^2 =  [\frac{R_1}{R_2} ]^3[/tex]

Here [tex]T_1[/tex] is the period of Deimos

and  [tex]T_1[/tex] is the period of  Phobos

So

      [tex][\frac{T_1}{T_2} ] =  [\frac{R_1}{R_2} ]^{\frac{3}{2}}[/tex]

=>    [tex]\frac{T_1}{T_2}  =  [\frac{23500 }{9380} ]^{\frac{3}{2}}][/tex]

=>    [tex]\frac{T_1}{T_2}  = 3.965  [/tex]

The given values are:

We know the formula,

→ [tex]v = \frac{2 \pi r}{T}[/tex]

then,

→ [tex]\sqrt{\frac{GM_{mars}}{r} } =\frac{2 \pi r}{T}[/tex]

or,

→              [tex]T = 2 \pi \sqrt{\frac{r^3}{GM_{mars}} }[/tex]

Now,

The orbital period of Deimos will be:

                   [tex]= 2 \pi \sqrt{\frac{(23500)^3}{GM_{mars}} }[/tex]

The orbital period of Phobos will be:

                   [tex]= 2 \pi \sqrt{\frac{(9380)^3}{GM_{mars}} }[/tex]

hence,

The ratio will be:

→ [tex]\frac{T_{deimos}}{T_{Phobos}}[/tex] = [tex]\frac{2 \pi \sqrt{\frac{(23500)^3}{GM_{mars}} } }{2 \pi \sqrt{\frac{(9380)^3}{GM_{mars}} }}[/tex]

             = [tex]\sqrt{(\frac{23500}{9380})^3 }[/tex]

             = [tex]3.96[/tex]

Thus the above answer is correct.

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Answer:

Reservoir.

Explanation:

Answer:

Explanation:

Since one light is being taken away,

the rest of the light bulbs will get

more energy transfered to both

light bulbs, therefore, they will

not explode, but get brighter.

Hope this helps! <3

Since one light is being removed, more energy will be transmitted to the other light bulbs, preventing an explosion while increasing brightness. Thus, option B is correct.

The majority of the electrons in some compounds, however, spin in the same direction due to their high magnetic properties.

These materials produce the strongest magnets due to their high magnetic permeability.

A magnet's magnetic strength is not the same throughout. In a bar magnet, the magnetic field is stronger around the pole than it is in the center, where the field is weaker.

This is so because the shape has an impact on how the magnetic energy in the area it occupies is distributed.

Therefore, have multiple magnetic fields that attract the shavings with different strengths.

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Answer:

50%

Explanation:

       [tex]p_{o} = m* v_{1o} (1)[/tex]

       [tex]v_{f} =\frac{v_{1o}}{2}[/tex]

       [tex]K_{1o} =\frac{1}{2} * m *v_{1o}^{2} (1)[/tex]

       [tex]K_{f} =\frac{1}{2} * 2*m *(\frac{v_{1o}}{2}) ^{2} (2)[/tex]

       [tex]K_{f} =\frac{1}{2} *m *v_{1o} ^{2} *\frac{1}{2} = \frac{K_{1o} }{2}[/tex]

Answer:

θ = Cos⁻¹[A.B/|A||B|]

A. The angle between two nonzero vectors can be found by first dividing the dot product of the two vectors by the product of the two vectors' magnitudes. Then taking the inverse cosine of the result

Explanation:

We can use the formula of the dot product, in order to find the angle between two non-zero vectors. The formula of dot product between two non-zero vectors is written a follows:

A.B = |A||B| Cosθ

where,

A = 1st Non-Zero Vector

B = 2nd Non-Zero Vector

|A| = Magnitude of Vector A

|B| = Magnitude of Vector B

θ = Angle between vector A and B

Therefore,

Cos θ = A.B/|A||B|

θ = Cos⁻¹[A.B/|A||B|]

Hence, the correct answer will be:

A. The angle between two nonzero vectors can be found by first dividing the dot product of the two vectors by the product of the two vectors' magnitudes. Then taking the inverse cosine of the result

The jumper who bounces after impact is more likely to sustain fewer injuries since he/she has a lesser change in momentum.

According to the question:

Two people are forced to jump from the third story of a burning building onto solid concrete to escape the fire.

One person lands on the ground and comes to an abrupt halt.

The other person bounces off the ground after impact.

We know that the sudden change in momentum results in impulse. Impulse is directly proportional to the force exerted on the body. The greater the impulse, the larger the force exerted on the body.

If we assume that both the person have the same mass then:

The person coming to an abrupt halt has a larger change in momentum that the person who bounces off. Since the person who bounces off continues to be in motion, retaining some of the momenta while the direction of motion changes.

So the person who bounces after impact will sustain fewer injuries.

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Answer:

A pyramid of energy shows the relative amount of energy available at each trophic level of a food chain or web. On average, about 10 percent of the energy available within one trophic level is transferred to the next level.

Explanation:

Answer:

B is the correct answer

Explanation:

I just did this question

Answer:

The colors of the sunset result from a phenomenon called scattering. Molecules and small particles in the atmosphere change the direction of light rays, causing them to scatter. ... The short-wavelength blue and violet are scattered by molecules in the air much more than other colors of the spectrum.

Explanation:

Answer:

The scattering and reflection of light by dust particles.

Answer:

F₁ = 4.29 x 10⁵ N

Explanation:

The total force required to move the freight train with the given acceleration is given by the following formula:

F = ma + f

where,

F = Total Force Required from both engines = ?

m = equivalent mass of system = 2(8 x 10⁵ kg) + 5.5 x 10⁵ kg = 21.5 x 10⁵ kg

a = required acceleration = 5 x 10⁻² m/s²

f = force of friction = 7.5 x 10⁵ N

Therefore,

F = (21.5 x 10⁵ kg)(0.05 m/s²) + 7.5 x 10⁵ N

F = 8.575 x 10⁵ N

Now, for identical forces in each engine can be given as:

Force exerted by each engine = F₁ = F/2

F₁ = 8.575 x 10⁵ N/2

F₁ = 4.29 x 10⁵ N

Answer:

A circuit that has little or no resistance

Explanation:

Apex

Little or no current will flow through the circuit beyond the point of the short  a short in a series circuit .

Simply said, a short circuit is a connection with low resistance between the two conductors delivering electricity to any circuit. This leads to an excessive current flow via the "short" in the power source and may potentially result in the power source being destroyed.

When there is a short in a series circuit, the current rises over its typical level. When a component is shorted, the voltage drop across it drops to 0V, while the voltage drop across the intact component rises.

In a series circuit, if there was a short circuit, one of the components would blow up and the circuit, or all the components, would cease to function. All of the lights would consequently go off. That would account for a blackout even if one component had a short circuit.

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Answer:

Electrons have virtually no mass

Explanation:

I had a test an this was the right answer^

Answer: Electrons have virtually no mass

Explanation: on edpuzzle that was the answer

Complete Question

The complete question is shown on the first uploaded image

Answer:

a

 [tex]I =  476 \ N \cdot s [/tex]

b

 [tex]I_1 =  14.21 \  N\cdot s [/tex]

c

    [tex]F  = 20300 \  N [/tex]

Explanation:

Considering the first question

From the question we are told that

   The force produced is [tex]F  =  3400 \ N[/tex]

   The duration of the punch is  [tex]t =  0.14 \  s[/tex]

Generally the impulse delivered is mathematically represented as

    [tex]I =  F  *  t[/tex]

=>    [tex]I =  3400  *  0.14[/tex]

=>    [tex]I =  476 \ N \cdot s [/tex]

Considering the second  question

   The approaching velocity of the ball is  [tex]v_b  =  45 \ m/s[/tex]

    The leaving  velocity of the ball is  [tex]v_l  =  -53 \ m/s[/tex]

     The mass of the ball is  [tex]m_b  =  0.145 \  kg[/tex]

Generally the magnitude of the impulse delivered is mathematically represented as

     [tex]I_1 =  m*  v_b  - m *  v_l[/tex]

=>     [tex]I_1 =  [0.145 *  45]  - [0.145 * -53][/tex]

=>     [tex]I_1 =  14.21 \  N\cdot s [/tex]

Considering the third  question

     The  duration of the impact of the bat is  [tex]t _1 =  0.7 \ ms  =  0.7 *10^{-3} \  s[/tex]

      Generally the average force exerted by the bat is mathematically represented as  

       [tex]F  =  \frac{I_1}{t_1}[/tex]

=>     [tex]F  =  \frac{14.21 }{0.7 *10^{-3}}[/tex]

=>       [tex]F  = 20300 \  N [/tex]

Answer:

The  coefficient of kinetic friction  [tex]\mu_k =  0.724[/tex]

Explanation:

From the question we are told that

   The  length of the lane is  [tex]l =  36.0 \  m[/tex]

    The speed of the truck is  [tex]v  =  22.6\  m/s[/tex]

Generally from the work-energy theorem we have that  

    [tex]\Delta KE  =   N  *  \mu_k *  l[/tex]

Here N  is the normal force acting on the truck which is mathematically represented as

     [tex]\Delta KE[/tex] is the change in kinetic energy which is mathematically represented as

        [tex]\Delta KE =  \frac{1}{2} *  m *  v^2 [/tex]

=>     [tex]\Delta KE =  0.5  *  m *  22.6^2 [/tex]

=>      [tex]\Delta KE =  255.38m  [/tex]

        [tex]  255.38m =    m *  9.8  *  \mu_k *   36.0 [/tex]

=>     [tex]  255.38  =    352.8  *  \mu_k  [/tex]

=>   [tex]\mu_k =  0.724[/tex]

Answer:

43

Explanation:

you divide 2600 by 60 and your answer is 43.3333333

I just took the quiz and got it right!

Answer:

A and D

Explanation:

Answer:

it acceleration 7.2m/s²

Explanation:

mass of object = 50kg

force of object = 360N

acceleration = ?

Force= mass × acceleration

acceleration = force/mass

acceleration = 360N/50Kg

acceleration = 7.2m/s²

it accelerate 7.2 m/s²

Answer:

Analyzing data B.

Explanation:

Answer:

D

Explanation:

Answer:

v = 0.166 [mm/min]

Explanation:

To solve this problem we must calculate the speed of each bus by means of the following formula that relates the displacement with time.

V = displacement / time

displacement = 250 [mm]

time = 5[min] = 300 [s]

Vx = 250/300 = 0.833[mm/min]

Vy = 300/300 = 1 [mm/min]

The relative velocity is the subtraction of the velocities, since the velocities are in opposite directions.

v = (1 - 0.833) = 0.166 [mm/min]

Answer: 46 meters

Explanation:

The maximum height reached by the base ball is 45.9 meters.

To find the maximum height the given values are,

Mass = 25 Kg

speed v = 30 meters per second.

As the ball goes up, it acts due to the gravity.

The gravity slows an upward-moving object,

Acceleration due to gravity = 9.8 m/s every second,

the baseball reaches its greatest height in (30/9.8) = 3.06 seconds.

At that instant, its speed is zero.

The baseball's average speed from toss to peak is

            (1/2) (30 + 0)  =  15 m/s .

The baseball average speed = 15 m/s

And the time for greatest height = 3.06 seconds.

Substituting the given values,

The ball rises can be calculated as

 (15 x 3.06)  =  45.9 meters.

Thus, the baseball reached the maximum height approximately is 45.9 meters.

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