What is the Power (Watts) dissipated in a 25 Ohm circuit if it has 3.0 Amps of current?

The total resistance of the circuit is 3 ohms.

The total current in the circuit is 4 A.

The power of the circuit is 48 W.

What is the total resistance of the circuit?

The total resistance of the circuit is calculated as follows;

1 / Rt = 1/R1 + 1/R2 + 1 / R3

1/Rt = 1/6 + 1/12 + 1/12

1/Rt = 0.3333

Rt = 3 ohms

The total current in the circuit is calculated as follows;

I = V / Rt

I = ( 12 ) / ( 3 )

I = 4 A

The power of the circuit is calculated as follows;

P = IV

P = ( 4 x 12 )

P = 48 W

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Answer:

pv=nrt

Explanation:

pv=nrt

Answer:

E+V= Weird

Explanation:

If you subtract "e" repeating from E and V you'll get the equation above.

Explanation:

To find the final velocity and distance traveled during the acceleration, we can use the equations of motion:

v = u + at, where v is the final velocity, u is the initial velocity (30 m/s), a is the acceleration, and t is the time (6 s)

v = 30 m/s + a x 6 s

d = ut + 0.5at^2, where d is the distance traveled

d = 30 m/s x 6 s + 0.5 x a x (6 s)^2

Since acceleration (a) is not given, we can use one equation to solve for it and substitute into the other:

v = 30 m/s + a x 6 s

a = (v - 30 m/s) / 6 s

Substitute this into the second equation to find the distance:

d = 30 m/s x 6 s + 0.5 x (v - 30 m/s) / 6 s x (6 s)^2

So, we can find the final velocity and distance traveled once the acceleration (a) is known.

The energy input at aphelion (farthest from the sun) is 92% of the intensity at perihelion (closest to the sun) because of the inverse-square law, which states that the intensity of radiation decreases with the square of the distance from the source.

However, the difference in energy input does not solely explain the difference in surface temperature from winter to summer.

Other factors, such as the Earth's axial tilt, atmospheric composition, and cloud cover also play a role in determining the surface temperature.

Evidence from climate models and observations indicate that changes in these factors, especially changes in the number of greenhouse gases in the atmosphere, can have a significant impact on global temperature patterns.

In conclusion, while the inverse-square law affects the intensity of solar radiation, it is not the sole factor in determining surface temperature, and the role of other factors must be considered to fully understand seasonal and climatic variations.

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Momentum is P. p= mv. P = 0.15* 45= 6.75.

Momentum is a commonly used term in sports. A team that has the momentum is on the move and is going to take some effort to stop. A team that has a lot of momentum is really on the move and is going to be hard to stop.

Momentum is a physics term; it refers to the quantity of motion that an object has. A sports team that is on the move has the momentum. If an object is in motion (on the move) then it has momentum.

Momentum can be defined as "mass in motion." All objects have mass; so if an object is moving, then it has momentum - it has its mass in motion.

Therefore, Momentum is P. p= mv. P = 0.15* 45= 6.75.

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The total head of the pipe is 430,400 Pa.

The total head of the pipe is the total pressure of the pipe and it is calculated as follows;

Pt = Pi + ¹/₂ρv² + ρgh

where;

Pt = ( 350,000) + ¹/₂(1000)(2)²  +  (1000 x 9.8 x 8)

Pt = 430,400 Pa

Thus, the total head or total pressure of the pipe depends on the density of water, speed of water and height above datum.

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These characteristics include density, Cp, thermal conductivity, and Cp. The amount of thermal energy needed to raise a substance's temperature by 1°C is known as its heat capacity (with the value depending on which temperature scale is used).

As we now understand, a material's thermal properties determine its ability to conduct heat or, more specifically, determine its nature in the presence of heat. As a result, when heat moves through an object, it exhibits thermal qualities.

Thermal Expansion is one of the main elements of a substance's thermal characteristics. Temperature Stress Temperature Conduction.

We know that change in length ΔL=LαΔT

ΔT=40−20=20 , L=5m

ΔL=5×α×20

ΔL=5×1.2×10

−5

×20

=1.2×10

−3

=1.2mm

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The required circuit can be constructed by  arranging  resistor 1 (60 Ω), resistor 3 (20Ω) in one arm and resistor 2 (30 Ω) and open switch in other arm.

A resistor is an electrical component that controls or restricts how much electrical current can pass across a circuit in an electronic device. A specified voltage can be supplied via resistors to an active device like a transistor.

When the circuit be constructed by  arranging  resistor 1 (60 Ω), resistor 3 (20Ω) in one arm and resistor 2 (30 Ω) and open switch in other arm, the equivalent resistor is = (60 + 20) Ω = 80 Ω.

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Answer:

The difference in the calculated and measured velocity could be due to the fact that the motion sensor may not have been able to accurately detect the velocity of the block 1.0 second before the explosion due to the sudden change in momentum caused by the explosion. Additionally, the motion sensor may not have been able to accurately detect the velocity of the two pieces 1.0 second after the explosion due to the sudden change in momentum caused by the explosion. This could explain the 10% discrepancy between the calculated and measured velocity.

Explanation:

The quantities that can be compared from four cars is the average acceleration. Answer A.

The question isn't complete. A similar question is in the attachment. When a truck or a car increases its velocity over time, it means it experiences acceleration. The vehicle moves in a non-uniform motion. The formula in non-uniform motion

where

The information in the question  that four cars have a different time to travel but have the same

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(a) The power required by the car climbing the inclined plane at steady speed is 15.554 kW.

(b) The power required by the car when the speed changes is 19.45 kW.

The power required by a car climbing the inclined plane is calculated as follows;

P = Fv

where;

Since the speed is steady, v = 80 km/h = 22.22 m/s

P = 700 N x 22.22

P = 15,554 W

P = 15.554 kW

When the speed of the car changes from 90 km/h to 110 km/h, the power required is calculated as;

vf = 110 km/h = 30.56 m/s

vi = 90 km/h = 25 m/s

V = ( 30.56 + 25 ) / 2 = 27.78 m/s

P = FV

P = 700 x 27.78

P = 19,446 W

P = 19.45 kW

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Since cos(25) is approximately 0.906, the minimum coefficient of static friction is μs >= 0.906

a) Substituting this into the previous equation, we get:

N - mg * sin(25) = μk * N

Solving for N, we get:

N = mg * sin(25) / (1 - μk)

b) Since the force applied by the person is horizontal, the horizontal component of the normal force must balance it. Therefore,

F = N * cos(25)

Solving for N, we get:

N = F / cos(25) = 0 / cos(25) = 0 N

c) Since the person is not slipping, the friction force must balance the horizontal component of the gravitational force. Therefore,

fs = μs * N

where μs is the coefficient of static friction.

Since N = mg * cos(25),

fs = μs * mg * cos(25)

d)Since cos(25) is approximately 0.906, the minimum coefficient of static friction is

μs >= 0.906

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(a) Relative to the ground, the gravitational potential energy of the orange on the branch is 4.29 J and on ground is 0 J.

(b) ) Relative to the branch, the gravitational potential energy of the orange on the branch is 0 J and on ground is 4.29 J.

(c) The change in potential energy relative to the ground is -4.29 J and relative to the branch is 0 J.

Relative to the ground, the gravitational potential energy of the orange on the branch is calculated as follows;

P.E = mgh

where;

P.E = 0.125 kg x 9.8 m/s² x 3.5

P.E = 4.29 J

The gravitational potential energy of the orange on the ground is calculated as follows;

P.E = mgh

P.E = m x g x 0 m

P.E = 0 J

The change in potential energy = final potential energy - initial potential energy

change in potential energy = 0 J - 4.29 J = - 4.29 J

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Answer:

it's there to reduce movement of the passenger if hit.

Explanation:

it's quite simple really, its there because if it wasn't the person would've gone flying through the front window screen.

The smallest unit of matter that may be divided without producing electrically charged particles is the atom.

The rest consists of a positively charged nucleus of protons and neutrons surrounded by a cloud of negatively charged electrons.

The nucleus is small and dense compared with the electrons, which are the lightest charged particles in nature. Electrons are attracted to any positive charge by their electric force; in an atom, electric forces bind the electrons to the nucleus.

It is also the smallest piece of substance with chemical element-like characteristics. As a result, the atom serves as the fundamental unit of chemistry.

Therefore, The smallest unit of matter that may be divided without producing electrically charged particles is the atom.

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-27.7 x 10⁶ N is the net force on particle q₂..

Define a charged particle

A particle with an electric charge is said to be charged particle. It might be an ion, such as a molecule or atom having an excess or shortage of electrons in comparison to protons. It could also be an elementary particle like as an electron, proton, or another one that is thought to have the same charge (except antimatter).

F₁₂ = kq₁q₂/r²

k is Coulomb's constant

r is the distance between q₁ and q₂

q represent charges

F₁₂ = (9x 10⁹ x 18.1 x 10⁻³ x 11.2 x 10⁻³)/(0.28)²

F₁₂ = -23* 10⁶ N

F₂₃ = kq₂q₃/r²

F₂₃ = -(9 x 10⁹ x 11.3 x 10⁻³ x 5.67 x 10⁻³)/(0.35)²

F₂₃ = 4.7 x 10⁶ N

F(net) = F₁₂ + F₂₃

         = -23* 10⁶ N + -4.7 x 10⁶ N

         =  -27.7 x 10⁶ N

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The horizontal force required to displace the chandelier 0.16 m is equal to the restoring force divided by the displacement is 1500N

A. To displace the position of the chandelier 0.16 m to one side, a horizontal force is necessary to balance the restoring force due to the tension in the wire. This restoring force can be calculated as the weight of the chandelier times the acceleration due to gravity:

Frest = W * g = 25 kg * 9.8 m/s^2 = 245 N

The horizontal force required to displace the chandelier 0.16 m is equal to the restoring force divided by the displacement:

Fhorizontal = Frest / (0.16 m) = 245 N / 0.16 m = 1531 N

Rounding to two significant figures, the answer is:

Fhorizontal = 1500 N

B. The tension in the wire can be calculated as the sum of the forces in the vertical direction, which is equal to the weight of the chandelier:

Tension = W = 25 kg * 9.8 m/s^2 = 245 N

Rounding to two significant figures, the answer is:

Tension = 250 N

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The final speed of the apple would be 26.9 m/s.

Given is that your friend shoots an 80g arrow through a 100g apple balanced on William tells head. The arrow has a speed of 50m/s before passing through the apple and 40m/s after.

In a elastic collision, the total kinetic energy of the system remains the same. So, we can write -

[tex]$E_{1i} +E_{2i} = E_{1f} +E_{2f}[/tex]                                            .... Eq{ 1 }

We can write as -

{1/2 x 80 x 2500} + 0 = {1/2 x 80 x 1600} + {1/2 x 100 x v²}

{1/2 x 100 x v²} = {40 x 2500} - {40 x 1600}

50v² = 40 x 900

v² = 720

v = √720

v = 26.9 m/s

Therefore, the final speed of the apple would be 26.9 m/s.

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a. Time to accelerate to 60 mph is 2.18 s.

b. The acceleration would be needed to achieve the same speed at the same time at constant acceleration is 12.3 m/s² or 1.26g.

The complete question is in the attachment. Convert the velocity unit from mph to m/s

The object has acceleration so the object moves in a non-uniform motion.

v = u + at

According to the model of acceleration, there is two part to acceleration. Between 0 - 0.4 s and between 0.4 s - 3 s.

From 0s - 0.4s

From 0.4s - t

Using quadratic formula to calculate the time

t₁₂ = (- b ± (√(b² - 4ac))) ÷ 2a

t₁₂ = (14.6 ± (√((- 14.6)² - (4 × 1.5 × 21.22)))) ÷ (2 × 1.5)

t₁₂ = (14.6 ± (√(213.16 - 127.32)) ÷ 3.0

t₁₂ = (14.6 ± (√85.84) ÷ 3.0

t₁₂ = (14.6 ± 9.26) ÷ 3.0

t = 1.78 s

Time travel to reach 60 mph

t = t first part + t second part

t = 0.4 s + 1.78 s

t = 2.18 s

In a constant acceleration

v = u + at

26.82 = 2.18a

a = 26.82 ÷ 2.18

a = 12.3 m/s²

a = (12.3 ÷ 9.8) g

a = 1.26g

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1. The percentage of incoming solar radiation which reflected and scattered back into space is 30%

2. Yes, solar radiation that is reflected and scattered heat the objects it strikes does.

3. The percentage of incoming solar radiation is 19% absorbed by clouds and gasses in the atmosphere.

4. 51% percentage of incoming solar radiation passes through the atmosphere and is absorbed by the Earth's surface.

5. No. The most transmit or absorb is Earth's surface.

In a climate system, all processes start from radiant energy coming from the sun onto the surface of the atmosphere (air). Furthermore, this energy is forwarded to the earth's surface where along the way some of it is reflected back into space. Part of it is absorbed by the air and the rest is transmitted to the earth's surface.

Radiation that can reach the earth's surface can eventually heat the earth's surface, evaporate water, melt snow and heat the ground. The changed energy is also sent back into space in the form of radiation.

Variations in the amount of radiation received by the earth's surface and variations in the interaction between the earth and the atmosphere can cause spatial and time variations of energy changes which ultimately determine the climate of a place.

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According to the ideal gas law, 0.588 moles of NH3 gas in a 15.0 L container must be heated to a temperature of 1088.85 K or 815.85°C in order for it to impose a pressure of 3.50 atm.

Real gases are simplified into ideal gases to make them easier to understand. It is believed to be made up of point particles that move randomly and independently.

Additionally, it is believed that perfect gas molecules by themselves have no volume.

Three state variables—absolute pressure (P), volume (V), and absolute temperature—define an ideal gas (T). The ideal gas law, an equation that relates them, is based on their relationship.

Therefore, According to the ideal gas law, 0.588 moles of NH3 gas in a 15.0 L container must be heated to a temperature of 1088.85 K or 815.85°C in order for it to impose a pressure of 3.50 atm.

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Light has been traveling from this object before it arrives on earth for 1,500 light-years.

Why is Orion Nebula so bright?

The Orion Nebula, a colourful cloud of gas and cosmic dust, is a star-forming region. The nebula has "a rather brilliant apparent brightness because it is the nearest massive star-forming zone to Earth.

Why was Orion given that name?

The ancient Egyptians believed that the stars in the belt represented the spot where the spirit of the god Osiris would ultimately dwell. To the Arabs, the constellation appeared to be enormous. The mythological Greek hunter Orion is the subject of the constellation's name.

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The  incorrect equation  among them  is: Δt = v/Δx.

A physical quantity is a property of a substance or system that can be measured and quantified. The algebraic multiplication of a "Numerical value" and a "Unit" can be used to express a physical quantity as a value.

Unit of distance Δx is meter.

Unit of elapsed time Δt is second.

Unit of speed v is meter per second.

Hence, the possible equations  among them are:

Δx = vΔt

v = Δx/Δt

Δt = Δx/v

1/Δt = v/Δx

But  the  incorrect equation  among them  is:

Δt = v/Δx.

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Your question is incomplete, but most probably the options of the question are:

Δx = vΔt

v = Δx/Δt

Δt = Δx/v

1/Δt = v/Δx

Δt = v/Δx.

Answer:

Explanation: =− And   ..=. −=.  = =.  ( .. . )    ( . ..)   =. Therefore   = .=

The equivalent of what mathematicians refer to as a self-adjoint operator in physics is a Hermitian operator.

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Answer: W = 6.4 x 10^5

Explanation: W = P x AV +(1.6x10^5 PA)(4M)

                                                        W = 6.4 x 10^5

The planet that a Martian is on is Earth.

The formula to calculate the period from a simple pendulum

T = 2π × √(L ÷ g)

T ÷ 2π = √(L ÷ g)

(T ÷ 2π)² = L ÷ g

T² ÷ 4π² = L ÷ g

L = (T² × g) ÷ 4π²

Compare from pendulum on Mars and another planet

L₁ = L₂

(T₁² × g₁) ÷ 4π² = (T₂² × g₂) ÷ 4π²

T₁² × g₁ = T₂² × g₂

1.5² × 0.38g = 0.92² × g₂

2.25 × 0.38g = 0.8464 × g₂

0.855g = 0.8464 × g₂

g₂ = 0.855g ÷ 0.8464

g₂ = 1.0101g

g₂ = 1.0101 × 9.8

g₂ = 9.89

The other planet is Earth.

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There are two possible configurations:

Force is a physical quantity that represents an interaction between objects. It is a vector quantity, meaning it has both magnitude and direction. Forces can cause objects to accelerate, change their shape, or change their velocity.

There are several types of forces, including gravitational forces, electromagnetic forces, and frictional forces. Force is measured in units of Newtons (N) and can be calculated using Newton's laws of motion. Force plays a crucial role in the study of physics, and understanding its behavior is essential for understanding the motion and interactions of objects in the world around us.

For the three forces to be in equilibrium, the sum of the forces in the x-direction must be equal to zero and the sum of the forces in the y-direction must also be equal to zero.

So, the horizontal force (12 N) is balanced by the sum of the other two forces:

12 N = F1 + F2

where F1 and F2 are the magnitudes of the other two forces.

Since the forces are in a vertical plane, one of the forces must be directed upwards and the other downwards.

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The speed of the two carts after the collision is 10 m/s.

What is momentum?

Momentum is a measure of an object's motion and is defined as the product of an object's mass and velocity. The SI unit of momentum is kilogram-meters per second (kg m/s).

In physics, momentum is an important concept in the study of motion and is related to the forces acting on an object. According to Newton's second law of motion, the momentum of an object changes when a force is applied to the object. The magnitude of the change in momentum is proportional to the size of the force and the time over which it is applied.

In collisions and other interactions between objects, the total momentum of the system is conserved, meaning that the total momentum before the interaction is equal to the total momentum after the interaction.

initial momentum = mA · vA1 + mB · vB1

final momentum = (mA + mB) · vAB2

Where:

mA = mass of cart A = 0.500 kg

vA1 = velocity of cart A before the collision = 100 m/s

mB = mass of cart B = 1.50 kg.

vB1 = velocity of cart B before the collision = - 20 m/s

vAB2 = velocity of the carts that move as a single object = unknown.

(notice that we have considered leftward as negative direction)

Since the momentum of system remains constant:

initial momentum = final momentum

mA · vA1 + mB · vB1 = (mA + mB) · vAB2

Solving for vAB2:

(mA · vA1 + mB · vB1) / (mA + mB) = vAB2

(0.500 kg · 100 m/s - 1.50 kg · 20 m/s) / (0.500 kg + 1.50 kg) = vAB2

vAB2 = 10 m/s

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