floating airboat conditions

Answer:

1) Decreases

2) Inverse Proportionality

3) 1 A

Explanation: Just Did Em'

Answer:

Decreases

 Inverse Proportionality

 1 A

Explanation:

correct on quiz EDGE2021

Answer:Distance and time

Explanation:

We know that average speed is the ratio of distance traveled by the particle over the time taken

So average velocity of balloon is

[tex]v_{avg}=\frac{\text{Distance}}{\text{Time taken}}[/tex]

So, Josh should note the distance traveled by balloon and time taken in doing  so.

The two measurements required by Josh to calculate the average speed of the helium-filled balloon are distance and time.

The average speed of an object signifies and explains the total distance an object travels within a specified time. The average speed is a scalar quantity since it doesn't have a definite direction.

The average speed can be estimated if the measurement of the distance and time is being known because of its formula:

[tex]\mathsf{v_{avg} = \dfrac{distance}{time}}[/tex]

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Answer:

Light when strikes mirror, it bounces off where as it transmits through a lens. A mirror is glass with lustrous metal coated at its back. Light reflects off a mirror and image is formed behind it.

Explanation:

Answer: 7.7cm

Explanation:

If i want to set up destructive interference, meaning that the reflection will be half (½) of the wavelength out of phase, or the distance is ¼ of a wavelength.

v.s = Speed of sound = 340 m/s ( some books may use 343 m/s, this change varies due to change in temperature and humidity.)

f = 1100 hz

λ = v.s / f

λ = 340 m/s / 1400 Hz

λ = .3091 m

Recall that the distance is ¼ of the wavelength,

.3091/4 = 0.0773 m

Distance used would be = 7.7 cm

Answer:

E = 1.02 x 10⁻²⁷ J

Explanation:

The energy of a photon is given by the Plank's formula. The formula is given as:

E = hυ

where,

E = Energy of Photon = ?

h = Plank's Constant = 6.626 x 10⁻³⁴ J.s

υ = Frequency of the Wave = 1545 KHz = 1545000 Hz

Therefore, we can find the energy of photon in the given radio wave from an AM station, by substituting the known values in Plank's formula.

E = (6.626 x 10⁻³⁴ J.s)(1545000 Hz)

E = 1.02 x 10⁻²⁷ J

The energy of a photon, in a radio wave from an AM station has a 1545 kHz broadcast frequency, is found to be E = 1.02 x 10⁻²⁷ J

The energy , in joules, of the photon should be considered as the E = 1.02 x 10⁻²⁷ J.

The energy of a photon should be like

E = hυ

where,

E = Energy of Photon = ?

h = Plank's Constant = 6.626 x 10⁻³⁴ J.s

υ = Frequency of the Wave = 1545 KHz = 1545000 Hz

Now

E = (6.626 x 10⁻³⁴ J.s)(1545000 Hz)

E = 1.02 x 10⁻²⁷ J

hence, The energy , in joules, of the photon should be considered as the E = 1.02 x 10⁻²⁷ J.

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Answer:

a) the elastic force of the pole directed upwards and the force of gravity with dissects downwards

Explanation:

The forces on the athlete are

a) at this moment the athlete presses the garrolla against the floor, therefore it acquires a lot of elastic energy, which is absorbed by the athlete to rise and gain potential energy,

therefore the forces are the elastic force of the pole directed upwards and the force of gravity with dissects downwards

b) when it falls, in this case the only force to act is batrachium by the planet, this is a projectile movement for very high angles

c) When it reaches the floor, it receives an impulse that opposes the movement created by the mat. The attractive force is the attraction of gravity.

Answer: 8m/s^2

Explanation:

By Newton's second law we have that.

F = m*a

Where F is force, m is mass and a is acceleration.

We know that m = 50kg and F = 400N

400N = 50kg*a

a = (400/50) m/s^2 = 8m/s^2

Answer:

A. velocity and wavelength

Explanation:

When a wave travels from one medium to another it undergoes refraction which results to the change in direction.

Refraction of a wave is one of the property of waves that occurs when a wave changes direction when it passes from one medium to another. This occurs as a result of bending of the wave which occurs since the mediums involved are of different density and refractive index.

Apart from the change in direction, refraction is accompanied by the change in wavelength of a wave and thus a change in speed.

Answer:

A. velocity and wavelength

Explanation:

Answer:

the image formed is virtual, this means that it is the prolongations of the rays that form the image. It is straight and magnified by the quantity

Explanation:

In a lens there is a relationship between the focal length, the distance to the object and to the image given by the constructor equation

          1 / f = 1 / o + 1 / i

where is the focal length, or and i are the distance to the object and the image respectively.

In the case presented, the object is within the focal length, so the image formed is virtual, this means that it is the prolongations of the rays that form the image. It is straight and magnified by the quantity

         m = - i / o

Answer:A

Explanation:Got it right :)

Answer:

a

The  radial acceleration is  [tex]a_c = 0.9574 m/s^2[/tex]

b

The horizontal Tension is  [tex]T_x = 0.3294 i \ N[/tex]

The vertical Tension is  [tex]T_y =3.3712 j \ N[/tex]

Explanation:

The diagram illustrating this is shown on the first uploaded

From the question we are told that

   The length of the string is  [tex]L = 10.7 \ cm = 0.107 \ m[/tex]

     The mass of the bob is  [tex]m = 0.344 \ kg[/tex]

     The angle made  by the string is  [tex]\theta = 5.58^o[/tex]

The centripetal force acting on the bob is mathematically represented as

         [tex]F = \frac{mv^2}{r}[/tex]

Now From the diagram we see that this force is equivalent to

     [tex]F = Tsin \theta[/tex] where T is the tension on the rope  and v is the linear velocity  

     So

          [tex]Tsin \theta = \frac{mv^2}{r}[/tex]

Now the downward normal force acting on the bob is  mathematically represented as

          [tex]Tcos \theta = mg[/tex]

So

       [tex]\frac{Tsin \ttheta }{Tcos \theta } = \frac{\frac{mv^2}{r} }{mg}[/tex]

=>    [tex]tan \theta = \frac{v^2}{rg}[/tex]

=>   [tex]g tan \theta = \frac{v^2}{r}[/tex]

The centripetal acceleration which the same as the radial acceleration  of the bob is mathematically represented as

      [tex]a_c = \frac{v^2}{r}[/tex]

=>  [tex]a_c = gtan \theta[/tex]

substituting values

     [tex]a_c = 9.8 * tan (5.58)[/tex]

     [tex]a_c = 0.9574 m/s^2[/tex]

The horizontal component is mathematically represented as

     [tex]T_x = Tsin \theta = ma_c[/tex]

substituting value

   [tex]T_x = 0.344 * 0.9574[/tex]

    [tex]T_x = 0.3294 \ N[/tex]

The vertical component of  tension is  

    [tex]T_y = T \ cos \theta = mg[/tex]

substituting value

     [tex]T_ y = 0.344 * 9.8[/tex]

      [tex]T_ y = 3.2712 \ N[/tex]

The vector representation of the T in term is of the tension on the horizontal and the tension on the vertical is  

       [tex]T = T_x i + T_y j[/tex]

substituting value  

      [tex]T = [(0.3294) i + (3.3712)j ] \ N[/tex]

The radical acceleration of the bob is 0.9575 m/s². The horizontal and vertical components of the tension force exerted by the string on the bob are 0.329 N and 3.37 N respectively.

Taking the vertical component of the tension where the weight mass is balanced, then:

T sin θ = mg

[tex]\mathbf{T = \dfrac{mg}{sin \theta}}[/tex]

However, the centripetal force of the system is given by the horizontal component of the tension which can be expressed as:

T cos θ = m[tex]\mathbf{a_r}[/tex]

Making [tex]\mathbf{a_r}[/tex] the subject, we have:

[tex]\mathbf{a_r = \dfrac{Tcos \theta }{m}}[/tex]

replacing the value of tension (T), we have:

[tex]\mathbf{a_r = \dfrac{ \dfrac{mg}{sin \theta}cos \theta }{m}}[/tex]

[tex]\mathbf{a_r=g tan \theta}[/tex]

where;

[tex]\mathbf{a_r=9.8 m/s^2 \times tan 5.58}[/tex]

[tex]\mathbf{a_r=9.8 m/s^2 \times 0.0977}[/tex]

[tex]\mathbf{a_r=0.9575 \ m/s^2}[/tex]

Thus, the radical acceleration of the bob is 0.9577 m/s²

On the positive x-axis, the horizontal component of the tension force is:

[tex]\mathbf{T_x =Tcos \theta}[/tex]

[tex]\mathbf{T_x =ma_r}[/tex]

[tex]\mathbf{T_x =0.344 \ kg \times 0.9575 \ m/s^2}[/tex]

[tex]\mathbf{T_x =0.329 \ N}[/tex]

On the positive y-axis, the vertical component of the tension force is:

[tex]\mathbf{T_y =Tsin \theta}[/tex]

[tex]\mathbf{T_y =mg}[/tex]

[tex]\mathbf{T_y=0.344 \ kg \times 9.8 \ m/s^2}[/tex]

[tex]\mathbf{T_x =3.37 \ N}[/tex]

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Answer:

25 watts

Explanation:

Power=work/time

work=force x distance

1000 × 3

=3000 Joules

power= 3000/120

=25 watts

If A set of pulleys is used to lift a piano weighing 1,000 newtons. The piano is lifted 3 meters in 120 seconds. Then the power used is equal to 25 watts.

Power is the rate at which work is done or energy is transferred. It is a physical quantity that measures how quickly energy is used or transformed.

P=W/s

Where W= work done in joules.

s= time in seconds.

Power is typically measured in watts (W), which is equivalent to joules per second (J/s). In simple terms, power can be defined as the amount of work done or energy transferred per unit of time.

Here in the question,

To calculate the power used to lift the piano, we need to use the formula:

Power = Work / Time

The work done in lifting the piano is given by:

Work = Force x Distance

Where

Force = the weight of the piano, which is 1,000 newtons,

Distance = the height to which it is lifted, which is 3 meters.

Then, the work done is:

Work = 1,000 N x 3 m = 3,000 joules

The time taken to lift the piano is 120 seconds.

Now we can substitute these values in the formula for power:

Power = Work / Time

Power = 3,000 joules / 120 seconds

Power = 25 watts

Therefore, the power used to lift the piano is 25 watts.

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Answer:

Protons and Neutrons are the two types of nucleons that make up a nucleus. The electrostatic force exists between protons in the nucleus because of their charge. Because it is repulsive, this force tends to make a nucleus unstable. However, the strong nuclear force acts between protons, between neutrons, and between protons and neutrons. This force helps to make a nucleus stable, because it is always attractive.

Explanation:

The nucleus of an atom contains two types of particles, protons and neutrons. Proton has a positive charge, while neutron has no charge. The protons have a repulsive electrostatic force between each other, due to like charges. Due to this repulsive force protons tend to scatter away making the nucleus unstable. In order to overcome this, a force inside the nucleus binds these protons and neutrons together. This attractive force is called strong nuclear force. This force acts on very short ranges.

An atom is made up of nucleus and electrons orbitting the nucleus. The correct words are proton, neutron, electrostatic force, protons, unstable, nuclear, stable respectively.

Nucleus:

It is composed of Protons and Neutrons. Protons are potsitively charged , hence repulse each other which makes the nucleus unstable.

Nucleons held together by Strong nucleur force because it is the strongest force of universe.

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Answer:

A) 3

B) fraction is 2/1 = 2

C) 3 C

Explanation:

Initial capacitance with air U is 3 C

Final charge with dielectric Ud material is 9 C

Dielectric constant = capacitance with dielectric/capacitance with air

= 9/3 = 3

Since it is connected to a battery, the potential difference at the plate will be constant.

P.d = V

Also energy stored in a capacitor is given as 0.5CV^2

For capacitance with air, energy is 0.5 x 3 x V^2 = 9V^2

For capacitance with dielectric, energy is 0.5 x 9 x V^2 = 18V^2

Fraction of energy stored in capacitance with dielectric to that with air is 18V^2/9V^2 = 2

From C = eA/d

Where C is the capacitance,

e is the dielectric constant

A is the area of the dielectric

d is the distance between plates of the capacitor.

For initial, assuming the distance to be of unit distance, area will be given as

9 = (3 x A)/1

9 = 3A

A = 2 m^2. If we pull dielectric half way out, area becomes

C = (3 x 1)/1

C = 3 C

Answer:

capacitive reactance equals inductive reactance

Answer:

Explanation:

For solving this question we will be using Newton's second law of motion in 2 different formats.

F = ma and   [tex]\tau = I\alpha[/tex]

Here F = net external force applied on the body

m = mass of the body

a = acceleration of the centre of mass of the body

[tex]\tau[/tex] = net external torque on the body

I = moment of inertia of the body about given axis

[tex]\alpha[/tex] = angular acceleration of the body

These are 2 forms of Newton's second law of motion first one is from transnational motion and second for rotational motion.

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Answer:

Zero

Explanation:

Answer:

D.

all of these.......

Answer:

  c.  5.6 W

Explanation:

We can write the Kirchoff's voltage law (KVL) equations for the circuit using i1 for the clockwise current in the left loop, and i2 for the clockwise current in the right loop. Then the circuit equations are ...

  i1 (10 +10) -i2(10) = 12

  -i1(10) +i2(10 +15) = 8

Using Cramer's rule to find i2, we have ...

  i2 = (12(-10) -8(20))/((-10)(-10) -(25)(20)) = -280/-400 = 0.7

The power supplied by the Emf is ...

  (8 V)(0.7 A) = 5.6 W . . . . . matches choice C

Answer:

3.73m

Explanation:

What we are asked to find is the range covered by the fish. This is given by the following equation (1). Range can simply be defined as the horizontal distance covered by a body whose motion freely under gravity is in two dimensions. The motion of the fish is in two dimensions, the vertical dimension and the horizontal dimension.

[tex]R=\frac{u^2sin2\theta}{g}.........(1)[/tex]

where u = 6.5m/s is the initial velocity, g is acceleration due to gravity which is taken as [tex]9.8m/s^2[/tex] and [tex]\theta=30.0^o[/tex].

Substituting these values into equation (1), we obtain the following;

[tex]R=\frac{6.5^2sin2(3)}{9.8}\\R=\frac{42.25sin60}{9.8}\\\\R=\frac{36.59}{9.8}\\R=3.73m[/tex]

The range should be 3.73m.

A Chinook salmon can jump out of water with a speed of 6.50 m/s . The initial angle of =30.0°

The range refers to the horizontal distance i.e. covered by a body whose motion freely under gravity should be in two dimensions. It can be the vertical dimension and the horizontal dimension.

[tex]= 6.5sin^2\div 9.8\\\\= 36.59 \div 9.8[/tex]

= 3.73m

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[tex]a = \displaystyle\frac{v-u}{t}[/tex]

[tex]-3 = \displaystyle\frac{v - 30}{3}[/tex]

[tex]v -30 = -9[/tex]

[tex] v = 21 m/s[/tex]

Answer:21

Explanation:

Explanation:

Ans 1 ) As the gravity of a planet increases, there will be increase in thickness of atmosphere around that planet. The gravitational force of the planets holds the bulks of molecules of atmosphere (as gas will need higher escape velocity).

Ans 2) Mars is the easier planets among all other planets in our solar system as it lies in habitable zone and it as a moderate gravity (where live can survive). Well, there's lot of resources too.

Thanks for asking

Answer:

ghujg

Explanation:

Answer:

Explanation:

Given:

Four more crests pass in a time of 38.4 s and the distance between the crests is 32 m.

We have to determine five terms.

Lets start with one-one basis.

a.  

Period = Time taken by a wave to pass though.

⇒  [tex]P = \frac{Total\ time}{No.\ of\ waves}[/tex]

⇒ [tex]P = \frac{38.4}{4}[/tex]

⇒ [tex]P=9.6 s[/tex]

b.  

Frequency = Reciprocal of time period in Hertz.

⇒ [tex]f=\frac{1}{T}[/tex]

⇒[tex]f=\frac{1}{9.6}[/tex]

⇒ [tex]f=0.104 Hertz[/tex]

c)

Wavelength = Distance between two consecutive trough and crest.

⇒ [tex]\lambda = 32 m[/tex]

d.

Speed (v) = Product of frequency and wavelength.

⇒ [tex]v=f\times \lambda[/tex]

⇒ [tex]v=0.104\times 32[/tex]

⇒[tex]v = 3.33 ms^-1[/tex]

e)

Amplitude = The maximum displacement or half the distance from crest to trough.

⇒ Here it can't be determined.

⇒ Impossible.

Answer:

The surface tension of the water is 6.278×10⁻² N/m

error = 13.65%

Explanation:

The surface tension of water is given by

[tex]$ \gamma = \frac{F}{L} $[/tex]

Where F is the force acting on water and L is the length over which is force is acted.

We are given the mass of 100 droplets of water

M = 3.78 g

n = 100

The mass of 1 droplet is given by

[tex]m = \frac{M}{n} \\\\m = \frac{3.78}{100}\\\\m = 0.0378 \: g \\\\m = 3.780\times10^{-5} \: kg[/tex]

The force acting on a single droplet of water is given by

[tex]F = m \cdot g[/tex]

Where m is the mass of water droplet and g is the acceleration due to gravity

[tex]F = 3.780\times10^{-5} \cdot 9.81[/tex]

[tex]F = 3.708\times10^{-4} \: N[/tex]

The circumferential length of the droplet is given by

[tex]L = \pi \cdot d[/tex]

Where d is the diameter

[tex]L = \pi \cdot 1.88\times10^{-3}\\\\L = 5.906 \times10^{-3} \: m[/tex]

Now we can find out the required surface tension of the water

[tex]\gamma = \frac{3.708\times10^{-4} }{5.906 \times10^{-3}} \\\\\gamma = 0.06278\: N/m\\\\\gamma = 6.278 \times10^{-2} \: N/m\\\\[/tex]

Therefore, the surface tension of the water is 6.278×10⁻² N/m

The tabulated value of the surface tension of water at 20 °C is given by

[tex]$ \gamma_t = 0.0727 \: N/m $[/tex]

The percentage error between tabulated and calculated surface tension is given by

[tex]$ error = \frac{\gamma_t - \gamma }{\gamma_t} $[/tex]

[tex]$ error = \frac{ 0.0727 - 0.06278}{0.0727} \times 100\% $[/tex]

[tex]$ error = 13.65 \%[/tex]

Answer:

1. Hot air is less dense and has moved upward allowing cool air to move downward which is less dens

(Convection current)

2. The ceiling has transferred heat to him by radiation.

Explanation:

During the day when air is heated as a result of the ceiling transferring heat to it, it becomes less dens and it gains energy, which make it lighter in weight than cooler air, this hot air moves upward allowing cooler air to move downward.

Answer:

Check the explanation

Explanation:

Kindly check the attached image below to see the step by step explanation to the question above.

Answer:

RT =  17 ohms

Explanation:

For two parallel resistances in a circuit the combined resistance is given by:

[tex]\frac{1}{R_T}=\frac{1}{R_1}+\frac{1}{R_2}\\\\\frac{1}{R_T}=\frac{R_2+R_1}{R_1R_2}\\\\R_T=\frac{R_1R_2}{R_1+R_2}[/tex]

R1 = 25 ohms

R2 = 50 ohms

You replace the values of R1 and R2 in the formula for RT:

[tex]R_T=\frac{(25)(50)}{25+50}ohms=16.66\ ohms \approx 17\ ohms[/tex]

hence, the combined resitances is 17 ohms

Answer:

Calvin Cycles

Explanation:

This is a popular joke. Is this an answer choice for your question?

Answer:

1.) Q T U W 

Explanation:

1.) QTUW

2.) UW

3.) QU

4.) QTUC

According to first law of thermodynamics

dU = Q - W

Where

dU = change in internal energy

Q = heat added

W = work done by the system

2.) UW

Work is been done on the system. The pressure will surely distort the internal energy of the system

Pressure = Force/area.

3.) QU

The melting process begins because the air temperature around the ice cubes is warmer

The solid ice particles absorb heat energy from the warmer air, giving the particles energy and enabling them to move away from one another.

4.) Chemical reaction can be exothermic or endothermic which involves absorption or release of heat. Since it is subjected to small spark, there is definitely a change in internal energy.

In this exercise we have to have knowledge about thermodynamics in order to identify the alternatives that are correctly classified, so we can say that:

1.) QTUW

2.) UW

3.) QU

4.) QTUC

According to first law of thermodynamics:

[tex]dU = Q - W[/tex]

Where:

1.) The first alternative corresponds to:

In other words QTUW.

2.) The second alternative corresponds to:

Work happen been finished ahead of the system. The pressure will without doubt deform the internal strength of bureaucracy:

[tex]Pressure = Force/area[/tex]

In other words UW.

3.) The third alternative corresponds to:

The softening process begins cause the air coldness of some degree around the frozen water cubes happen warmer The complete frozen water particles take in heat strength from the warmer air, bestowing the piece energy and allowing to happen them to move out each one.

In other words QU.

4.) The fourth alternative corresponds to:

Chemical reaction maybe exothermic or endothermic that involves assimilation or release of heat. Since it happen commit small spark, skilled happen certainly a change in within strength.

In other words QTUC

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