What is the component in a car engine that would detect the need for air?​

The work-energy theorem says that the total work done on the block is equal to the difference of its kinetic energies at points B and A. Then the total work done on the block is

[tex]W_{\rm total} = K_B - K_A = 4.0\,\mathrm J - 5.0\,\mathrm J = -1.0\,\mathrm J[/tex]

Friction acts on the block to oppose its motion, so it does negative work on the block, -4.5 J.

The only other force acting on the block as it moves is the force P. Let [tex]W_P[/tex] be the work done by the force P. Then the total work done on the block is

[tex]W_{\rm total} = W_P + W_{\rm friction} \iff -1.0\,\mathrm J = W_P - 4.5 \,\mathrm J \implies W_P = \boxed{3.5\,\mathrm J}[/tex]

Answer:

Apparent weight of pilot due to centripetal acceleration:

m v^2 / R = 5 g m = 5 * 70 * 9.8 = 3430 N

Weight of pilot = 70 * 9.8 = 686 N

Total = 3430 + 686 = 4116 N

Answer:

just multiply the frequency and wavelength

200× 2

400

Answer:

T = 1.12 10⁻⁷ s

Explanation:

This exercise must be solved in parts. Let's start looking for the electric field in the axis of the ring.

All the charge dq is at a distance r

           dE = k dq / r²

Due to the symmetry of the ring, the field perpendicular to the axis is canceled, leaving only the field in the direction of the axis, if we use trigonometry

            cos θ =[tex]\frac{dE_x}{dE}[/tex]

             dEₓ = dE cos θ

              cos θ = x / r

substituting

                dEₓ = [tex]k \frac{dq}{r^2 } \ \frac{x}{r}[/tex]

                DEₓ = k dq x / r³

let's use the Pythagorean theorem to find the distance r

             r² = x² + a²

where a is the radius of the ring

we substitute

              dEₓ = [tex]k \frac{x}{(x^2 + a^2 ) ^{3/2} } \ dq[/tex]

we integrate

               ∫ dEₓ =k \frac{x}{(x^2 + a^2 ) ^{3/2} }  ∫ dq

               Eₓ = [tex]k \ Q \ \frac{x}{(x^2+a^2)^{3/2}}[/tex]

In the exercise indicate that the electron is very central to the center of the ring

                x << a

                Eₓ = [tex]k \ Q \frac{x}{a^3 \ ( 1 +(x/a)^2)^{3/2})}[/tex]

if we expand in a series

                  [tex](\ 1+ (x/a)^2 \ )^{-3/2} = 1 - \frac{3}{2} (\frac{x}{a} )^2[/tex]

we keep the first term if x<<a

                 Eₓ = [tex]\frac{ k Q}{a^3} \ x[/tex]

the force is

                 F = q E

                 F = [tex]- \frac{kQ }{a^3} \ x[/tex]

this is a restoring force proportional to the displacement so the movement is simple harmonic,

                 F = m a

                 [tex]- \frac{keQ}{a^3} \x = m \frac{d^2 x}{dt^2 }[/tex]

                 [tex]\frac{d^2 x}{dt^2} = \frac{keQ}{ma^3} \ x[/tex]

the solution is of type

                  x = A cos (wt + Ф)

with angular velocity

                w² = [tex]\frac{keQ}{m a^3}[/tex]

angular velocity and period are related

                 w = 2π/ T

we substitute

               4π² / T² = \frac{keQ}{m a^3}

                T = 2π  [tex]\sqrt{\frac{m a^3 }{keQ} }[/tex]

let's calculate

                T = 2π [tex]\sqrt{ \frac{ 9.1 \ 10^{-31} \ 2.2^3 }{9 \ 10^9 \ 1.6 \ 10^{-19} \ 0.021 \ 10^{-3} } }[/tex]

                 T = 2π pi [tex]\sqrt{320.426 \ 10^{-18} }[/tex]

                 T = 2π  17.9 10⁻⁹ s

                 T = 1.12 10⁻⁷ s

Answer:

V = 3.5 x 10⁻⁶ m³/s = 3.5 cm³/s

Explanation:

The volume flow rate of the blood in the artery can be given by the following formula:

[tex]V = Av[/tex]

where,

V = Volume flow rate = ?

A = cross-sectional area of artery = πd²/4 = π(0.004 m)²/4 = 1.26 x 10⁻⁵ m²

v = velcoity = 0.28 m/s

Therefore,

[tex]V = (1.26\ x\ 10^{-5}\ m^2)(0.28\ m/s)[/tex]

V = 3.5 x 10⁻⁶ m³/s = 3.5 cm³/s

Answer:

V=IR

since the circuit is parallel both resistor have same voltage and different current value according to OHMs law.

total resistance in parallel=

1/R=1/R1+1/R2+...+1/Rn

since we have two resistor in parallel

Rt=R1R2/R1+R2

2*4/2+4=4/3 ohms

I=V/R

12/4/3=36/4=9Amp

OR

I=12/2=6amp

I=12/4=3amp

total current

I=6+3

9amp

Answer:

Solution

Explanation:

Solution is a process in chemical weathering and it is the process of dissolving or removing rock in a solution through the activities of acid rain or solution. Chemical weathering refer to the process where rocks interact with chemical solutions or acid rain which can result in His integration.

Answer:

Transverse.

Explanation:

Electromagnetic waves is a propagating medium used in all communications device to transmit data (messages) from the device of the sender to the device of the receiver.

An electromagnetic spectrum refers to a range of frequency and wavelength that an electromagnetic wave is distributed or extends. The electromagnetic spectrum comprises of gamma rays, visible light, ultraviolet radiation, x-rays, radio waves, and infrared radiation.

A transverse wave can be defined as a type of wave in which particles of the medium of propagation oscillates or vibrates in a direction that is perpendicular to the direction that the wave moves i.e at right angle to the direction of propagation of the wave.

Basically, sound is a transverse and all transverse wave are the direct opposite of a longitudinal wave that usually travel in the same direction of its oscillation.

Hence, this wave is transverse.

Answer:

The air in the soil is similar in composition to that in the atmosphere with the exception of oxygen, carbon dioxide, and water vapor. In soil air as in the atmosphere, nitrogen gas (dinitrogen) comprises about 78%. In the atmosphere, oxygen comprises about 21% and carbon dioxide comprises about 0.036%.

hope this helps

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Explanation:

Answer:

Explanation:

mass m = 3 kg

spring constant be k

k x .8 = 40 N

k = 40 / .8 = 50 N /m

angular frequency ω = √ ( k / m )

= √ ( 50 / 3 )

= 4.08 rad /s

Let amplitude of oscillation be A .

1/2 k A² = 1/2 m v²

50 A² = 3 x 1²

A = .245 m = 24.5 cm

For displacement , the equation of SHM is

x = A sinωt

= 24.5 sin4.08 t

x = 24.5 sin4.08 t

Here, angle 4.08 t is in radians .

Answer:

Explanation:

comfortable distance is 25 cm .

He must be using convex lens . In that case rays coming from object placed at 25 cm appears to be coming from 59.1 cm due to converging nature of convex lens.

object distance u = -25 cm

image distance v = -59.1 cm

Lens formula

1 / v - 1 /u = 1 /f

-1 / 59.1 + 1 / 25 = 1/f

- .0169 + .04 = 1 / f

.0231 = 1 / f

f = 43.3 m

Answer:

In which school you are???

Explanation:

(C)

Explanation:

[tex]t = 2\pi \sqrt{ \frac{l}{g} } [/tex]

If g is only 1/6 on another planet, then

[tex]t = 2\pi \sqrt{ \frac{l}{ \frac{g}{6} } } = 2\pi \sqrt{ \frac{6l}{g} } [/tex]

[tex] = \sqrt{6} \: (2\pi \sqrt{ \frac{l}{g} } ) = 2.4 \times t(on \: earth)[/tex]

Answer:

Applied Behavior Analysis therapy (ABA) is a type of intensive therapy that focuses on the principles and techniques of learning theory to help improve social behavior. ABA therapy helps to (1) develop new skills, (2) shape and refine previously learned skills, and (3) decrease socially significant problem behaviors.

Explanation:

Answer:

0.043 m upwards

Explanation:

The mass of the bullet, [tex]$m_1$[/tex] = 0.013 kg

Mass of the ballistic pendulum, [tex]$m_2$[/tex] = 3 kg

Velocity of the bullet, [tex]$v_1$[/tex] = 320 m/s

Therefore, from the law of conservation of momentum, we get

[tex]$m_1v_1+m_2v_2=m_1v_1^1+m_2v_2^1$[/tex]

[tex]$(0.013 \times 320)+(3 \times 0) = \left(0.013 \times \frac{320}{0}\right) + (3 \times v_2^1)$[/tex]

[tex]$3 \times v_2^1=2.774$[/tex]

[tex]$v_2^1=0.92 \ m/s$[/tex]

Therefore the required height to rise the block is given by :

[tex]$(v_2^1)^2-v_2^2=2gh$[/tex]

[tex]$h=\frac{(v_2^1)^2-v_2^2}{2g}$[/tex]

[tex]$h=\frac{(0.92)^2-0}{2(-9.81)}$[/tex]

[tex]$h=-0.043 \ m$[/tex]

Therefore, the block moves upwards for 0.043 meters.      

Answer:

a)   I₁ / I₂ = 9,  b)    I₁ / I₂ = 25

Explanation:

a) The amount of light that can pass through a telescope is the intensity of the light

         I = P / A

where A is the area of ​​the mirror and P is the incident power that is the same in all telescopes

       P = I₁ A₁ = I₂ A₂

where subscript 1 is for the 2 m diameter telescope and subscript 2 for the 6 m diameter telescope

The mirror area is

        A = π r²

         r = d / 2

we substitute

        I₁ π d₁² /4 = I₂ π d₂² ​​/ 4

        I₁ / I₂ = (d₂ / d₁) ²

we calculate

        I₁ / I₂ = (6/2) ²

        I₁ / I₂ = 9

b) d₂ ​​= 15 inch and d₁ = 3 inc

let's calculate

          I₁ / I₂ = (15/3) ²

          I₁ / I₂ = 25

Answer:

If you use P = 2 * pi * (L / g)^1/2  for the period of the simple pendulum

g = 4 * pi^2 * 1.2 / 2.8^2 = 6.04 m/s2

Note: omega = 2 pi * f = 2 pi / P  and omega = (g / L)^1/2

Answer:

6.0426 m/s^2

Explanation:

The period of a simple pendulum is equal to 2pi sqroot L/g

T = 280s/100 rev = 2.8s

Plug in 1.2 m for L and 2.8s for T, then solve for g to get 6.04 m/s^2 (dependent on how you round)

Answer:

b

Explanation:

The materials are most likely used to change the surface area of the ramp. For example, the sand paper can change the ramp's texture. The wax paper can also change the surface area of the ramp by texture, it can be made smoother.

Answer:

B.

Explanation:

Hope it helped!

Answer:

[tex]T=35.625sec[/tex]

Explanation:

From the question we are told that:

Length [tex]L=100 m[/tex]

Width [tex]W=50m[/tex]

Velocity of Car A [tex]V_A=5m/s[/tex]

Velocity of Car B [tex]V_B=3m/s[/tex]

Distance traveled by car A before car B moves

[tex]d_l=5*3[/tex]

[tex]d_l=15[/tex]

Therefore total distance traveled at same time interval

[tex]D=total\ distance-d_l[/tex]

Where

Total distance=Perimeter of rectangle

[tex]P=2(L+B)[/tex]

[tex]P=2(100+50)[/tex]

[tex]P=300[/tex]

Therefore

[tex]D=total\ distance-d_l[/tex]

[tex]D=300-15\\D=285m[/tex]

Generally the equation for time taken to meet is mathematically given by

[tex]T=\frac{Distance D}{Relative\ speed V_r}[/tex]

Where

Relative speed = Speed of car A +Speed of car B

[tex]V_r=V_A+V_B[/tex]

[tex]V_r=5+3[/tex]

[tex]V_r=8m/s[/tex]

Therefore the time taken to meet

[tex]T=\frac{ D}{ V_r}[/tex]

[tex]T=\frac{ 285}{ 8}[/tex]

[tex]T=35.625sec[/tex]

Answer:

the required minimum length of the attenuator is 3.71 cm

Explanation:

Given the data in the question;

we know that;

[tex]f_{c_1[/tex] = c / 2a

where f is frequency, c is the speed of light in air and a is the plate separation distance.

we know that speed of light c = 3 × 10⁸ m/s = 3 × 10¹⁰ cm/s

plate separation distance a = 7.11 mm = 0.0711 cm

so we substitute

[tex]f_{c_1[/tex] = 3 × 10¹⁰ / 2( 0.0711  )

[tex]f_{c_1[/tex] = 3 × 10¹⁰ cm/s / 0.1422  cm

[tex]f_{c_1[/tex] =  21.1 GHz which is larger than 15 GHz { TEM mode is only propagated along the wavelength }

Now, we determine the minimum wavelength required

Each non propagating mode is attenuated by at least 100 dB at 15 GHz

so

Attenuation constant TE₁ and TM₁ expression is;

∝₁ = 2πf/c × √( ([tex]f_{c_1[/tex] / f)² - 1 )

so we substitute

∝₁ = ((2π × 15)/3 × 10⁸ m/s) × √( (21.1 / 15)² - 1 )

∝₁ = 3.1079 × 10⁻⁷

∝₁ = 310.79 np/m

Now, To find the minimum wavelength, lets consider the design constraint;

20log₁₀[tex]e^{-\alpha _1l_{min[/tex] = -100dB

we substitute

20log₁₀[tex]e^{-(310.7np/m)l_{min[/tex] = -100dB

[tex]l_{min[/tex] = 3.71 cm

Therefore, the required minimum length of the attenuator is 3.71 cm

Answer:

The correct answer is - frequency.

Explanation:

VHF and UHF are the frequency that is used to describe television station's fields. VHF stands for "very high frequency" and UHF stands for "ultra high frequency" in which UHF is a higher frequency that can easily penetrate through buildings and use for TV signals and communications whereas VHF used for radio signals. UHF can range from 378-870 MHz while VHF ranges from low band 49-216 MHz.

Answer:

  α = 0.357 ras / s²

Explanation:

This is a rotational kinematics exercise, it tells us that it performs 10 squats in 30 s, for which it performs one squat at t = 3 s, also indicates that the angle of the squat is θ = 92º

            θ = θ₀ + w₀ t + ½ α t²

the athlete starts from rest, whereby w₀ = 0 and the initial angle in the vertical position is zero (θ₀=0)

            θ = ½ α t²

            α = 2 θ /t²

let's reduce the magnitudes to the SI system

            θ = 92º (π rad /180º) = 0.511π rad

let's calculate

            α = 2 0.5111π /3²

            α = 0.1136π rad / s²

            α = 0.357 ras / s²

Answer:

[tex]s = ut + \frac{1}{2}a {t}^{2} \\ = \frac{1}{2} \times 9.81 \times ({ \frac{1}{2} })^{2} \\ s = 1.22m[/tex]

Answer:

The f-ratio describes the relationship between the lens diameter and the focal length and is calculated by dividing the focal length by the diameter of the lens. For example, if a lens were to have a focal length of 50mm and a diameter of 10mm, then the f-ratio would be 50mm/10mm=5 or otherwise referred to as f5.

Explanation:

Answer:

The f-ratio describes the relationship between the lens diameter and the focal length and is calculated by dividing the focal length by the diameter of the lens. For example, if a lens were to have a focal length of 50mm and a diameter of 10mm, then the f-ratio would be 50mm/10mm=5 or otherwise referred to as f5.

Explanation:

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Answer:

try S or Q

Explanation:

Answer:

The person's velocity is zero.

Explanation: