=) A force of 15 N is used to pull a window blind shut.
Calculate the distance the blind is pulled when 14 J of work are done.

A mass on a spring will oscillate with such a period if it is coupled to a spring of spring constant k. (T). T = 2(m/k) describes this. The frequency of the oscillation would be = k/M.

By summing the masses of the each individual atom inside the compound's formula, the formula mass is determined. The ions can be regarded as atoms for the purposes of determining the formula mass since a valid formula was neutral (when no net electron gained or lost).

Imagine a spring with an unstretched length l, a spring constant of k, and a mass M dangling from it. The resonant frequency would be k/M if the spring's mass were ignored. According to the rule that was cited, the impact of the spring masses would be to change M in the equation for to M + m/3.

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The habitable zone is the range of orbits around a star within which planetary surface can support liquid water given sufficient atmospheric pressure.

The habitable zone of Proxima Centauri is about 3.4 to 8.1 million km from the star whereas Sun's habitable zone is around 151 million km.

Hence the habitable zone of Proxima Centauri is- much closer to the star than the Sun's.

A planet is a celestial frame that revolves around a star. In our sun system, Earth is the 1/3 planet from the sun. The phrase planet comes from the Greek planetes, which means "wanderer." since ancient instances, people have been inquisitive about the wandering of celestial our bodies within the night sky.

In general, planets are the biggest objects inside the sun device after the solar. most of them orbit the sun in a route formed like a circle. additionally they have an ecosystem, or a layer of gases surrounding them. most of the planets have at the least one moon.

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Answer:

0.50v

Explanation:

Now EMF is induced when there is motion of a conductor in an electric field. Michael Faraday in the annals of scientific history discovered this.

This is expressed mathematically as;

E = Magnetic field / t

but t = d/ v; d- distance, v-velocity, time

Hence E = magnetic field/ d/v

= Magnetic field× v/ d

= 0.02×30/ 1.2= 0.5

The required energy the carriage has, when the displacement of the carriage and mass of the carriage with the baby are given is calculated to be 1029 J.

The energy in the above case is nothing but the work done by the carriage.

The work is defined as,

W = F d

where,

F is force

d is displacement

Entering the values in the above equation, we have,

W = F d = m × a × d = 5 × 9.8 × 21 = 1029 J

Thus, the required energy the carriage has is calculated to be 1029 J.

The given question is inappropriate. The question is 'a baby carriage is sitting at the top of a hill that is 21 m high. The carriage with the baby has a mass of 5kg whats the energy the carriage has?'

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Answer:

Downwards

Explanation:

Using Fleming's right hand rule, where the middle finger represents the negative charge moving in the south to north direction, the fore finger represents the magnetic field which points in the east to west direction.

If we are to follow this orientation and place the thumb, middle finger and fore-finger at right angles to each other, the thumb represents the direction of the magnetic force on the charge.

In this case, the magnetic force points downwards after setting the other orientations of the magnetic field and the negative charge's direction.

Answer:

force of gravity; weight

Explanation:

Weight is the force of gravity on an object and it is measured in Newtons. On this spring scale, each line equals one Newton.

The acceleration of the rock half-way between two planets is 1.086 m/s².

The parameters provided;

3M radius of planet A.

R mass of planet A.

4M radius of planet B.

2R distance between the two planets,

r = 8R

Newton's universal gravitational law is used to calculate the gravitational force half-way (4R) between the two planets;

Fg = GmAmB/r²\

Fg = G(2M x 4M)/(4R)²

Fg = 12GM²/16R²

Fg = (12 x 6.67 x 10⁻¹¹ x (7.3 x 10²³)²) / 16(5.8 x 10⁶)

Fg = 7.925 x 10²³N

The magnitude of the rock's acceleration is calculated as follows using Newton's second law of motion:

F = ma

a = F/m

a = 7.925 x 10²³/7.3 x 10²³

a = 1.086m/s²

As a result, the rock's acceleration is 1.086 m/s².

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When air rises in a low-pressure system, it can lead to the formation of clouds and precipitation, such as rain or snow. The rising air also cools and condenses, releasing latent heat, which can further contribute to the development of the storm.

A low-pressure system is a weather pattern characterized by a region of lower atmospheric pressure compared to the surrounding areas. It is often associated with unsettled and stormy weather.

Clouds are formed when moist air rises and cools, causing water vapour to condense into tiny water droplets or ice crystals. This process occurs when the temperature of the air decreases, either because it is rising, or because it is mixing with cooler air.

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Answer:

The Recovery Principle applies both to immediate rest needed between bouts of exercise, as well as to longer time intervals of several hours to about two days. When you sprint as fast as possible or lift heavy weights, you will notice that your heart still pumps hard and you breathe heavy for a while after you stop.

Explanation:

Hope this helped!

Answer:

8 N North.

Explanation:

Given that,

One force has a magnitude of 10 N directed north, and the other force has a magnitude of 2 N directed south.

We need to find the magnitude of net force acting on the object.

Let North is positive and South is negative.

Net force,

F = 10 N +(-2 N)

= 8 N

So, the magnitude of net force on the object is 8 N and it is in North direction (as it is positive). Hence, the correct option is (d) "8N north".

Answer:

34.27 is the answer

The driver has to maintain the speed of 133.3 km/h for second half of the race in order to average 100km/h.

In order to calculate average velocity, divide the change in position or displacement (x) by the time intervals (t) during which the displacement takes place. Depending on the displacement's sign, the average velocity can either be positive or negative. Meters per second (m/s or ms-1) is the SI measure for average velocity. By dividing the entire distance the body has traveled by the amount of time it took to cross that distance, the average speed formula can be calculated.

To complete the race in 1 hr => 100 km/hr in a 100 km

Driver is going 80 km/hr at half way marker (50m).

Time taken to cover 50m = 50 km * (1 hr/80 km) = 5/8 hour.

Total time to complete the race on average 100 km/hr is 1 hr.  

Hence, time required to cover second half of the race => 1 hr - 5/8 hr          

                                                                                              => 3/8 hr

v= 50km/(3/8 hr) = 50*(8/3) = 133.3 km/h

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Answer:

ok so first ur not a failure and its okay don't be so hard on ur self

Answer:

The displacement of the proton after 1.5 microseconds is approximately 5.44 millimeters.

To calculate the displacement of the proton in the given electric field, we can use the following formula:

d = (1/2)at²

where:

d is the displacement,

a is the acceleration, and

t is the time.

In this case, the electric field exerts a force on the proton given by:

F = qE

where:

F is the force,

q is the charge of the proton (1.6 x 10^-19 C), and

E is the electric field (5 x 10^4 N/C).

The force acting on the proton is given by:

F = ma

Since the proton starts from rest, its initial velocity (v₀) is 0 m/s.

Using Newton's second law (F = ma), we can solve for the acceleration:

ma = qE

a = qE/m

Substituting the values:

a = (1.6 x 10^-19 C)(5 x 10^4 N/C) / (1.67 x 10^-27 kg) ≈ 4.82 x 10^6 m/s²

Now, we can calculate the displacement using the formula mentioned earlier:

d = (1/2)at²

Substituting the values:

d = (1/2)(4.82 x 10^6 m/s²)(1.5 x 10^-6 s)²

d ≈ 5.44 x 10^-3 meters or 5.44 mm

Therefore, the displacement of the proton after 1.5 microseconds is approximately 5.44 millimeters.

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The speed of sound wave in water is much more greater than its speed in air, so when the sound wave passes from sea water to air, then it's speed decreases.

Answer:

B- Gravitational Field

Explanation:

Have a nice day, hope you get a good grade!

The  generator converts mechanical energy to electrical energy by using a conducting metal loop turning in a gravitational field.

In terms of physics, a gravitational field represent the model that should be used for explaining the impact where the massive body should be extended into the space around it. Also, generating the force on the another massive body.

Therefore, based on the above explanation, the correct option is b.

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The distanve travelled is d=1200 miles

Time taken is t=420 miles.

The velocity is

The velocity is 2.85 miles/min

Answer:

true

Explanation:

Answer:

99kg m/s

Explanation:

\(p=m\Delta v \\\\\Delta v=20-0.20=19.8m/s \\\\p=5(19.8)=99\)

Hope this helps!

Answer:

Solution,

Initial speed(u)=20 m/s

final speed(v)=0.20 m/s

change in momentum∆P=m(v-u)

∆P=5(0.20-20)

∆P=5*19.8

∆P=99 kg m/s

Momentum of the body is decreased by 99 kg m/s

hope this helps...

Good luck on your assignment...

One potential advantage of replacing a coal-fired power plant with a natural gas-fired power plant is a reduction in greenhouse gas emissions.

Natural gas is a cleaner-burning fuel than coal and produces fewer emissions of carbon dioxide (CO2), a primary contributor to climate change, when burned for energy. This reduction in emissions can help to mitigate the effects of climate change and contribute to a cleaner, more sustainable energy system.

Additionally, natural gas power plants tend to be more efficient than coal-fired power plants, which can result in lower costs and a more reliable energy supply. Natural gas is also more widely available than coal in many regions, which can increase the energy security and reduce dependence on foreign sources of energy.

In conclusion, replacing a coal-fired power plant with a natural gas-fired power plant has the potential to offer environmental, economic, and energy security benefits. However, it is important to consider the full life cycle of each energy source, including production, distribution, and disposal, to make informed decisions about energy generation and use.

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Seasons are a part of a region's climate, but are not the only part.  hence the Option that best explains the relations between Climate and Seasons is

A. light and heat from the sun.

The Climatic condition of the Earth largely depends on the Solar System. Solar radiation warms the atmosphere and is fundamental to atmospheric composition, while the distribution of solar heating across the planet produces global wind patterns and contributes to the formation of clouds, storms, and rainfall.

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Answer:light and heat from the sun

Explanation:

Answer:

I think the answer is c

Explanation:

I had this problem once

Luminosity increases linearly with period. The luminosity-period relationship of a Cepheid variable star refers to the direct correlation between the star's brightness (luminosity) and the time it takes to complete one pulsation cycle (period).

This relationship was first discovered by Henrietta Leavitt in 1908. When the period of a Cepheid variable star increases, its luminosity also increases, which means that the star becomes brighter.

The best description for the luminosity-period relationship of a Cepheid star is that the luminosity increases linearly with the period. This relationship allows astronomers to measure distances to other galaxies and has played a vital role in our understanding of the universe.

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The time it will take do the hiker to climb the 1200m high wall is 1,411.2 seconds.

Power refers to the measure of the rate of doing work or transferring energy.

Power = Work done/time

Since work = force × distance the body is moved

Power = (m × g × h) / t

Where;

According to this question, a 60kg hiker wishes to climb 1200m high. If he can generate a sustained average power of 500 watts, the time it will take to climb is as follows;

500 = 60 × 9.81 × 1200/t

500t = 705,600

t = 1,411.2 seconds

Therefore, 1,411.2 seconds is the time it will take the hiker.

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According to your friend, when the magnetic flux through a coil increases slightly, the induced electromotive force (emf) in the coil supports the changing flux.

When the magnetic flux through a coil increases slightly, Faraday's law of electromagnetic induction states that an induced emf is generated in the coil.

According to Lenz's law, the direction of the induced emf is such that it opposes the change in magnetic flux.

However, your friend's statement suggests that the induced emf supports the changing flux, implying that the direction of the induced emf aligns with the direction of the increasing magnetic flux.

This view contradicts Lenz's law, which states that the induced emf always opposes the change in magnetic flux.

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The horizontal distance travelled by the football is 3.1 m.

The angle of projection of the football is calculated as follows;

tan ( θ ) = Vy / Vx

where;

tan ( θ ) = 5 / 3

tan ( θ ) = 1.667

θ = arc tan (1.667)

θ = 59⁰

The resultant velocity of the ball is calculated as follows;

v = √ (Vx² + Vy²)

v = √ (3² + 5²)

v = 5.83 m/s

The horizontal distance travelled by the football is calculated as follows;

x = v² sin(2θ) /g

where;

x = [ (5.83)² sin(2 x 59) /9.8 ]

x = 3.1 m

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48 m/s in terms of km/h is 720.8 km/h. In terms of m/min is 2880 m/min, in terms of km/s is 0.048 km/s and in terms of km/min is 2.88 km/min.

To solve this question, we need to understand some terms. The unit of velocity is measured in m/s. It can be expressed in different units of velocity.

1 km (kilometer) = 1000 meter

1 h (hour) = 3600 seconds

1 minutes = 60 seconds

To convert m/s into km/h,

48 m/s * 3600/1000 =  172.8 km/h

To convert m/s into m/min,

48 m/s * 60 = 2880 m/min

To convert m/s into km/s,

48 m/s ÷ 1000 = 0.048 km/s

To convert m/s into km/minutes,

48 m/s * 60 / 1000 = 2.88 km/min

Therefore, the 48 m/s expressed is 172.8 km/h, 2880 m/min, 0.048 km/s and 2.88 km/min.

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48 m/s is equivalent to  172.8 km/h, 2880 m/min, 0.048 km/s, and 2.88 km/minute.

To express 48 m/s in different units of velocity:

km/h (kilometers per hour):

To convert m/s to km/h, we can use the conversion factor of 3.6 since 1 m/s is equal to 3.6 km/h.

48 m/s * (3.6 km/h / 1 m/s) = 172.8 km/h

Therefore, 48 m/s is equivalent to 172.8 km/h.

m/min (meters per minute):

To convert m/s to m/min, we can use the conversion factor of 60 since there are 60 seconds in a minute.

48 m/s * (60 m/min / 1 s) = 2880 m/min

Therefore, 48 m/s is equivalent to 2880 m/min.

km/s (kilometers per second):

Since 1 kilometer is equal to 1000 meters, to convert m/s to km/s, we divide the value by 1000.

48 m/s / 1000 = 0.048 km/s

Therefore, 48 m/s is equivalent to 0.048 km/s.

km/minute (kilometers per minute):

To convert m/s to km/minute, we first need to convert m/s to km/s (as calculated in the previous step) and then multiply by 60 to convert seconds to minutes.

0.048 km/s * 60 = 2.88 km/minute

So, 48 m/s is equivalent to 2.88 km/minute.

Hence, 48 m/s is equivalent to approximately 172.8 km/h, 2880 m/min, 0.048 km/s, and 2.88 km/minute.

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Answer:

A) v₁ = 5.66 [m/s]

Explanation:

To solve this problem we must use the definition of linear momentum conservation, which tells us that momentum is conservation before and after a collision.

The linear momentum is equal to the mass by the product of the Velocity.

P = m*v

where:

P = lineal momentum [kg*m/s]

m = mass [kg]

v = velocity [m/s]

Now, to the right side of the equal sign will take the linear momentum before the collision and to the left side of the equal sign as after the collision.

Pbefore = Pafter

(m₁*v₁) - (m₂*v₂) = (m₁*v₃) + (m₂*v₄)

where:

m₁ = mass of the car = 1450 [kg]

v₁ = velocity of the car before the collision [m/s]

m₂ = mass of the shopping cart = 60 [kg]

v₂ = velocity of the shopping cart before the collision = -1.2 [m/s]

v₃ = velocity of the car after the collision = 5.13 [m/s]

v₄ = velocity of the shopping cart after the collision = 11.75 [m/s]

Now replacing:

(1450*v₁) - (60*1.2) = (1450*5.13) + (60*11.75)

1450*v₁ - 72 = 7438.5 + 705

1450*v₁  = 7438.5 + 705 + 72

1450*v₁ = 8215.5

v₁ = 5.66 [m/s]

Answer:

5.67 m/s

Just did it.

Answer:

The impulse applied to the athlete as she slows down is 28 N*s.

Explanation:

To calculate the impulse applied to the athlete as she slows down, we can use the equation:

impulse = force * time

Since the force applied to the athlete is equal to her mass times her acceleration, we can also express the impulse as:

impulse = mass * (vf - vi) / time

Plugging in the values given in the question, we get:

impulse = 71 kg * (4 m/s - 10 m/s) / time

Solving for impulse, we get:

impulse = 28 N*s

Therefore, the impulse applied to the athlete as she slows down is 28 N*s.