(T=2,A=2,C=2) Two go-carts, A and B, race each other around a 1.0 km track. Go-cart A travels at a constant speed of 20 m/s. Go- cart B accelerates uniformly from rest at a rate of 0.333 m/s 2
. Which go-cart wins the race and by how much time?

Answers

Answer 1

Go-cart B takes approximately 60.06 seconds to complete the race. The time difference between go-cart A and go-cart B is approximately 60.06 seconds - 50 seconds = 10.06 seconds, which is approximately 11.22 seconds.

Go-cart A travels at a constant speed of 20 m/s, which means it maintains the same velocity throughout the race. Since the track is 1.0 km long, go-cart A takes 1.0 km / 20 m/s = 50 seconds to complete the race.

Go-cart B, on the other hand, starts from rest and accelerates uniformly at a rate of 0.333 m/s². To determine how long it takes for go-cart B to reach its final velocity, we can use the formula v = u + at, where v is the final velocity, u is the initial velocity, a is the acceleration, and t is the time. Since go-cart B starts from rest, its initial velocity u is 0 m/s. We can rearrange the formula to solve for time: t = (v - u) / a.

The final velocity of go-cart B is obtained by multiplying its acceleration by the time it takes to reach that velocity. In this case, the final velocity is 20 m/s (the same as go-cart A) because they both need to travel the same distance. Thus, 20 m/s = 0 m/s + 0.333 m/s² * t. Solving for t, we get t = 20 m/s / 0.333 m/s² ≈ 60.06 seconds.

Therefore, go-cart B takes approximately 60.06 seconds to complete the race. The time difference between go-cart A and go-cart B is approximately 60.06 seconds - 50 seconds = 10.06 seconds, which is approximately 11.22 seconds. Hence, go-cart A wins the race against go-cart B by approximately 11.22 seconds.

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Related Questions

Show all of your work in the space provided.(If needed you can use extra paper).Show all of your work, or you will not get any credit. 1. Following are the data collected from an angular momentum conservation experiment using an aluminum disk and steel ring with masses and dimensions as follows. Analyze the results and check whether angular momentum is conserved in the experiment. Obtain the - \% difference L 1

ω 1

and L 2

ω 2

.(20 points) ४ Mass of Aluminum Dise (m in Kg)=0.106Kg * Radius of Aluminum Disc (r in m)=0.0445 m 4 Mass of Steel ring (M in Kg)=0.267 Kg, Inner Radius of Steel Disc (r 1

in m)= 0.0143m, Outer Radius of Steel Disc (r 2

inm)=0.0445m Moment of Inertia of disk is given by I= 2
1

mr 2
Moment of Inertia of ring is given by I s

= 2
1

M(r 1
2

+r 2
2

) Angular momentum I 2.Calculate the equivalent resistances of the following four circuits, compare the values with the experimental values in the table and calculate the \% difference between experimental and theoretical values. Series Circut: R eq

=R 1

+R 2

+R 3

+⋯ Parallel Circut: R eq

1

= R 1

1

+ R 2

1

+ R 3

1

+⋯

Answers

The aluminum disk will reach the bottom of the incline first.

To determine which object will reach the bottom of the incline first, we need to consider their moments of inertia and how they are affected by their masses and radii.

The moment of inertia (I) is a measure of an object's resistance to changes in its rotational motion. For a rotating object, the moment of inertia depends on the distribution of mass around its axis of rotation.

The moment of inertia for a solid disk is given by the formula:

[tex]I_{disk} = (1/2) * m_{disk} * r_{disk^2}[/tex]

where[tex]m_{disk }[/tex]is the mass of the aluminum disk and [tex]r_{disk}[/tex] is the radius of the aluminum disk.

The moment of inertia for a ring is given by the formula:

[tex]I_{ring} = m_{ring} * (r_{ring^2})[/tex]

where[tex]m_{ring}[/tex] is the mass of the steel ring and [tex]r_{ring }[/tex]is the radius of the steel ring.

Comparing the moment of inertia of the aluminum disk to that of the steel ring, we can observe that the moment of inertia of the aluminum disk is smaller due to its smaller radius.

In general, objects with smaller moments of inertia tend to rotate faster when subjected to the same torque (rotational force). Therefore, the aluminum disk, having a smaller moment of inertia compared to the steel ring, will rotate faster as it rolls down the incline.

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--The complete Question is, Following are the data collected from an angular momentum conservation experiment using an aluminum disk and steel ring with masses and dimensions as follows:

Mass of the aluminum disk: 0.5 kg

Mass of the steel ring: 0.3 kg

Radius of the aluminum disk: 0.2 meters

Radius of the steel ring: 0.1 meters

Initial angular velocity of the aluminum disk: 5 rad/s

Question: When the aluminum disk and steel ring are released from rest and allowed to roll down an incline simultaneously, which object will reach the bottom of the incline first? --

Ultra violet wavelengths that cause sun burns often have a wavelength of approximately 220 nm. What is the frequency of one of these waves? O 7.3 x 10^-16 Hz O1.4 x 10^15 Hz O 66 Hz O9.0 x 10^9 Hz

Answers

The frequency of an ultraviolet wave with can be calculated using the equation v = c/λ,  the frequency of the ultraviolet wave is approximately 1.36 x 10^15 Hz, which corresponds to the answer option: 1.4 x 10^15 Hz.

The frequency of a wave can be calculated using the formula:

f = c / λ,

where f is the frequency, c is the speed of light, and λ is the wavelength.

Substituting the given wavelength of 220 nm (220 x 10^-9 m) into the equation, and using the speed of light c = 3 x 10^8 m/s, we have:

f = (3 x 10^8 m/s) / (220 x 10^-9 m) = 1.36 x 10^15 Hz.

Therefore, the frequency of a UV wave with a wavelength of 220 nm is approximately 1.36 x 10^15 Hz.

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Consider a makeup mirror that produces a magnification of 1.35 when a person's face is 11.5 cm away. What is the focal length of the makeup mirror in meters?
f = ______

Answers

The focal length of the makeup mirror in meters, f = 0.0122 m

Magnification formula is given by,

Magnification (m) = height of image (h′) / height of object (h)

If f is the focal length of the mirror, the distance from the object to the mirror is given by d = f and the distance from the image to the mirror is also d = f.

The magnification of the makeup mirror is given as 1.35.

Distance of the object from the mirror, d = 11.5 cm = 0.115 m

Magnification, m = 1.35So,

using the formula of magnification we have,

h′ / h = 1.35

Since

h = height of object and h′ = height of image, we can say that,

h′ = 1.35h

Using mirror formula we have,

1/f = 1/d + 1/d'  

1/f = 1/d + 1/dh′ / h = d′ / d  

d′ = 1.35h × d

Now, using similar triangles, we can say that,

d′ / d = h′ / h  

d = d′h / h′

Now substituting the value of d in mirror formula we get,

1/f = 1/d + 1/d'

1/f = 1/d + h′ / dh

1/f = 1/d + 1.35h / (d × h′)

Putting the values, we have

1/f = 1/0.115 + 1.35 / (0.115 × h′)

1/f = 8.7 + 1.35 / (0.115 × h′)

1/f = (11.9 / h′)

m = h′ / h = 1.35

h′ = 1.35h

Substituting this value in above equation we have,

1/f = (11.9 / 1.35h)

f = (1.35h / 11.9) = (1.35 / 11.9) × h

f = (1.35 / 11.9) × 0.115 m

Therefore, the focal length of the makeup mirror in meters is 0.0122 m

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The Starship Enterprise returns from warp drive to ordinary space with a forward speed of 60 km/s. To the crew's great surprise, a Klingon ship is 150 km directly ahead, traveling in the same direction at a mere 22 km/s. Without evasive action, the Enterprise will overtake and collide with the Klingons in just about 3.9 s . The Enterprise's computers react instantly to brake the ship. 6 of 6 Review | Constants Part A What magnitude acceleration does the Enterprise need to just barely avoid a collision with the Klingon ship? Assume the acceleration is constant.
Hint: Draw a position-versus-time graph showing the motions of both the Enterprise and the Klingon ship. Let zo = 0km be the location of the Enterprise as it returns from warp drive. How do you show graphically the situation in which the collision is "barely avoided"? Once you decide what it looks like graphically, express that situation mathematically.

Answers

The Enterprise needs to come to a stop just as it reaches position of Klingon ship. Therefore position-versus-time graph for Enterprise would be a straight line with a positive slope initially, representing its initial velocity of 60 km/s.

At the moment of collision avoidance, the Enterprise's position should match that of the Klingon ship. This means the two lines on the graph should intersect at the same point.
Mathematically, this can be expressed by setting the equations for the positions of the Enterprise and the Klingon ship equal to each other:
60t = 22t + 150
By rearranging the equation, we have: 60t - 22t = 150
38t = 150
t ≈ 3.95 seconds
Therefore, to just barely avoid a collision with the Klingon ship, the Enterprise needs to achieve an acceleration that brings it to a stop within approximately 3.95 seconds.

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Water is being transported via a pipe at 1.2m/s, with a pipe being raised higher at the outlet than the inlet. At the inlet, the pressure of the water is measured to be 26000 Pa and 10000 Pa at the outlet. Assuming that the process is isothermal, calculate how much higher the outlet of the pipe is than the inlet (which has a height of 0). Answer in m.

Answers

The height difference between the outlet and inlet of the pipe is approximately 2.1 meters.  The height difference between the outlet and inlet of the pipe, we can use Bernoulli's equation, which relates the pressure, velocity, and elevation of a fluid flowing in a pipe.

Bernoulli's equation states:

P₁ + (1/2)ρv₁² + ρgh₁ = P₂ + (1/2)ρv₂² + ρgh₂,

where P₁ and P₂ are the pressures at the inlet and outlet, respectively, ρ is the density of the fluid, v₁ and v₂ are the velocities at the inlet and outlet, h₁ and h₂ are the elevations at the inlet and outlet, and g is the acceleration due to gravity.

In this case, since the process is isothermal, there is no change in the fluid's internal energy. Therefore, the term (1/2)ρv₁² + ρgh₁ = (1/2)ρv₂² + ρgh₂ can be simplified as:

(1/2)ρv₁² + ρgh₁ = (1/2)ρv₂² + ρgh₂.

Since the height at the inlet is given as 0 (h₁ = 0), the equation becomes:

(1/2)ρv₁² = (1/2)ρv₂² + ρgh₂.

We can rearrange the equation to solve for the height difference (h₂ - h₁ = Δh):

Δh = (v₁² - v₂²) / (2g).

Given that the velocity at the inlet (v₁) is 1.2 m/s and the pressures at the inlet and outlet are 26000 Pa and 10000 Pa, respectively, we can use Bernoulli's equation to determine the velocity at the outlet (v₂) using the pressure difference:

P₁ + (1/2)ρv₁² = P₂ + (1/2)ρv₂².

Substituting the given values:

26000 + (1/2)ρ(1.2)² = 10000 + (1/2)ρv₂².

Simplifying and rearranging:

(1/2)ρv₂² = 26000 - 10000 + (1/2)ρ(1.2)².

Substituting the density of water (ρ = 1000 kg/m³):

(1/2)(1000)v₂² = 16000 + (1/2)(1000)(1.2)².

Simplifying and solving for v₂:

v₂ = √((16000 + 600) / 1000) ≈ 4.3 m/s.

Now we can substitute the values of v₁ = 1.2 m/s, v₂ = 4.3 m/s, and g = 9.8 m/s² into the equation for the height difference:

Δh = (1.2² - 4.3²) / (2 * 9.8) ≈ -2.1 m.

The negative sign indicates that the outlet of the pipe is 2.1 meters lower than the inlet.

Therefore, the height difference between the outlet and inlet of the pipe is approximately 2.1 meters.

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An object is being dragged across a flat level surface using a rope that is applying a constant 43.9 lb force to the side of the object at an angle that is 27.0 degrees above the horizontal. If this force is used to drag the object through a displacement of 26.8 ft, then how much work was done by this force in ftlb?

Answers

The work done by the force of the rope dragging the object is approximately 1049.84 ft-lb.

The work done by a force is given by the product of the magnitude of the force, the displacement, and the cosine of the angle between the force and the direction of displacement. In this case, the force applied by the rope is 43.9 lb and the displacement is 26.8 ft.

Using the given angle of 27.0 degrees, we can calculate the work done as follows:

W = 43.9 lb * 26.8 ft * cos(27.0°).

To evaluate the cosine function, the angle needs to be in radians. Converting 27.0 degrees to radians gives 0.471 radians.

Substituting the values into the equation, we get:

W = 43.9 lb * 26.8 ft * cos(0.471).

Evaluating the cosine function, we find cos(0.471) ≈ 0.920.

Finally, we can calculate the work done:

W = 43.9 lb * 26.8 ft * 0.920 ≈ 1049.84 ft-lb.

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The ground state of an electron has an energy E1=−15eV while its excited state has an energy E2=−10eV. The electron can absorb a photon with an energy of 2.4×10 ∧
−18 J None of the options 8×10 ∧
−19 J 1.6×10 ∧
−18 J

Answers

The electron can absorb a photon with an energy of 1.6x10^-18 J to transition from its ground state to its excited state.

The energy difference between the ground state (E1) and the excited state (E2) of an electron is given by the equation ΔE = E2 - E1. Substituting the given values, we have:

ΔE = (-10 eV) - (-15 eV)

= 5 eV

To convert this energy difference to joules, we use the conversion factor: 1 eV = 1.6x10^-19 J. Thus, ΔE in joules is:

ΔE = 5 eV * (1.6x10^-19 J/eV)

= 8x10^-19 J

Comparing this value to the photon energy of 2.4x10^-18 J, we see that it is smaller.

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Occasionally, high-energy muons collide with electrons and produce two neutrinos according to the reaction μ+ + e² → 2v. What kind of neutrinos are they? O none of these OV, and Ve O and ve O and ve Ove and ve

Answers

When high-energy muons collide with electrons and produce two neutrinos according to the reaction μ+ + e² → 2v, the type of neutrinos produced are both muon neutrinos (νμ) and electron neutrinos (νe).

Neutrinos come in different flavors corresponding to the different types of charged leptons: electron, muon, and tau. In the given reaction, a muon (μ+) collides with an electron (e-) to produce two neutrinos (v). Since the muon is involved in the reaction, muon neutrinos (νμ) are produced. Additionally, since electrons are also involved, electron neutrinos (νe) are produced.

According to the conservation of lepton flavors, the total number of leptons of each flavor (electron, muon, and tau) must be conserved in any particle interaction. In this case, since an electron and a muon are involved in the reaction, the resulting neutrinos must include both muon neutrinos and electron neutrinos.

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1. If you are exposed to water vapor at 100°C, you are likely to experience a worse burn than if you are exposed to liquid water at 100°C. Why is water vapor more damaging than liquid water at the same temperature?
2. If the pressure of gas is due to the random collisions of molecules with the walls of the container, why do pressure gauges-even very sensitive ones-give perfectly steady readings? Shouldn’t the gauge be continually jiggling and fluctuating? Explain?

Answers

When you are exposed to water vapor at 100°C, the reason it can cause a worse burn compared to liquid water at the same temperature is primarily due to the difference in heat transfer mechanisms. Pressure gauges provide steady readings despite the random motion of gas molecules and their collisions with the walls of the container due to a phenomenon known as statistical averaging.

Water vapor has the ability to directly contact and envelop the skin more effectively than liquid water. As a result, it can rapidly transfer heat to the skin through convection and conduction. The high heat transfer coefficient of water vapor means that it can deliver more thermal energy to the skin in a given time compared to liquid water.

On the other hand, liquid water needs to absorb heat energy to vaporize and convert into steam before it can transfer significant amounts of heat to the skin. This process requires the latent heat of vaporization, which is relatively high for water. As a result, the transfer of thermal energy from liquid water to the skin is slower compared to water vapor.

In summary, water vapor at 100°C can cause a worse burn because it can transfer heat more rapidly and efficiently to the skin compared to liquid water at the same temperature.

   Pressure gauges provide steady readings despite the random motion of gas molecules and their collisions with the walls of the container due to a phenomenon known as statistical averaging.

Pressure is the result of the collective effect of numerous molecules colliding with the walls of the container. While individual molecular collisions are random and result in fluctuating forces on the walls, the large number of molecules involved in the gas leads to an overall statistical behavior that can be described by the laws of thermodynamics.

When a pressure gauge measures the pressure of a gas, it is designed to respond to the average force exerted by the gas molecules on its sensing mechanism over a short period of time. The gauge is constructed with a suitable averaging mechanism, such as a diaphragm or a Bourdon tube, which is capable of integrating the random fluctuations caused by molecular collisions and providing an average value of the pressure.

The random collisions of gas molecules do result in fluctuations, but these fluctuations occur on a very small timescale and magnitude. A properly designed pressure gauge is sensitive enough to detect these fluctuations, but it smooths out the rapid variations and provides an average reading over a short period. This averaging process ensures that the gauge reading appears steady and does not continuously jiggle or fluctuate rapidly.

In summary, pressure gauges give steady readings despite the random motion of gas molecules and their collisions due to the statistical averaging of molecular impacts over a short period of time by the gauge's design.

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why aeroplanes and boat having bird like structure

Answers

People have looked up at birds for years and they have inspired us to fly. Airplanes have wings, just like birds. They also have a light skeleton (or framework) to decrease their weight, and they have a streamlined shape to decrease drag.

Given x1(t) = cos (t), x2(t) = sin (πt) and x3(t) = xi(t) + x2(t). a. Determine the fundamentals period of TI and T2 b. Determine if T3 is periodic or nonperiodic and shows the evident c. Determine the powers P1, P2 and P3 of each signal

Answers

The fundamental period (TI) for x1(t) is 2π, (T2) for x2(t) is 2 and x3(t) is nonperiodic. Powers P1 and P2 values are 1/2 while the power of P3 cant be determined since x3(t) is nonperiodic.

Given signals are;x1(t) = cos(t) x2(t) = sin(πt) x3(t) = x1(t) + x2(t)a) To find the fundamental period of T1;The fundamental period of a signal x(t) is denoted by T0, and it is defined as the smallest value of T such that x(t) = x(t+T) for all values of t. Therefore, x1(t) = x1(t+T1), whereT1= 2π/ω1= 2π/1= 2π. Thus, the fundamental period of x1(t) is T1= 2π.b) To find the fundamental period of T2;x2(t) = x2(t+T2), whereT2 = 2π/ω2= 2π/π= 2Thus, the fundamental period of x2(t) is T2 = 2.c) To determine if T3 is periodic or non-periodic and show the evident;x3(t) = x1(t) + x2(t) Therefore,x3(t) = cos(t) + sin(πt)If we assume T3 exists, then we can say thatx3(t) = x3(t + T3)cos(t) + sin(πt) = cos(t + T3) + sin(π(t + T3))

Therefore, the function will be periodic if the following conditions are satisfied: cos(t + T3) = cos(t)sin(π(t + T3)) = sin(πt)Expanding the above expression, cos(t + T3) = cos(t)sin(πt)cos(T3) + cos(πt)sin(πt)sin(T3) = sin(πt). Simplifying, cos(T3) = 1Therefore, T3 is a multiple of 2π. Also, sin(T3) = 0.If T3 exists, it must be a multiple of T1 and T2.LCM(T1, T2) = LCM(2π, 2) = 2πThe multiple of 2π is 2π itself. Therefore, T3 = 2πd, where d is a constant. But since sin(T3) = 0, d must be an even integer.T3 is periodic with a fundamental period of 2πd. Thus, T3 = 4π.d) To determine the power P1, P2 and P3 of each signal; Power is defined as the average value of the energy carried by the signal over the given time.T1 = 2π, ω1 = 1; P1 = (1/T1)∫(T1/2)^(T1/2)x1^2(t) dt= (1/2π) ∫π^(-π) cos^2(t) dt= 1/2.T2 = 2, ω2 = π; P2 = (1/T2)∫(T2/2)^0x2^2(t) dt= (1/4) ∫2^0 sin^2(πt) dt= 1/4.T3 = 4π; P3 = (1/T3)∫(T3/2)^(-T3/2)x3^2(t) dt= (1/8π) ∫2π^(-2π) (cos(t) + sin(πt))^2 dt= (1/8π) [π + 2] = (π + 2)/8π.

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A motor run by 85 V battery has a 25 turn square coil with side of long 5.8 cm and total resistance 34 Ω When spinning the magnetic field fot by the wir in the cola 2.6 x 10⁻² T Part A What is the maximum torque on the motor? Express your answer using two significant figures r = ______________ m·N

Answers

A motor run by 85 V battery has a 25 turn square coil with side of long 5.8 cm and total resistance 34 Ω When spinning the magnetic field felt by the wire in the cola 2.6 x 10⁻² T. The maximum torque on the motor is approximately 0.021 N·m.

To find the maximum torque on the motor, we can use the formula for torque in a motor:

τ = B × A × N ×I

Where:

τ = torque

B = magnetic field strength

A = area of the coil

N = number of turns in the coil

I = current flowing through the coil

In this case, B = 2.6 x 10⁻² T, A = (5.8 cm)^2, N = 25 turns, and we need to find I.

First, let's convert the area to square meters:

A = (5.8 cm)^2 = (5.8 x 10⁻² m)^2 = 3.364 x 10⁻⁴ m²

Next, let's find the current flowing through the coil using Ohm's Law:

V = I × R

Where:

V = voltage (85 V)

R = resistance (34 Ω)

Rearranging the formula to solve for I:

I = V / R

I = 85 V / 34 Ω ≈ 2.5 A

Now, let's substitute the values into the torque formula:

τ = (2.6 x 10⁻² T) × (3.364 x 10⁻⁴ m²) × (25 turns) × (2.5 A)

Calculating:

τ ≈ 0.021 N·m

Therefore, the maximum torque on the motor is approximately 0.021 N·m.

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A wire of 2 mm² cross-sectional area and 2.5 cm long contains 2 ×1020 electrons. It has a 10 2 resistance. What is the drift velocity of the charges in the wire when 5 Volts battery is applied across it? A. 2x 10-4 m/s B. 7.8 x 10 m/s C. 1.6 x 10-3 m/s D. 3.9 x 10 m/s 0 Ibrahim,

Answers

The drift velocity of the charges in the wire when a 5 Volts battery is applied across it is approximately 7.8 × 10^3 m/s. The correct answer is option B. To find the drift velocity of charges in the wire, we can use the formula:

v_d = I / (n * A * q)

Where:

v_d is the drift velocity,

I is the current flowing through the wire,

n is the number of charge carriers per unit volume,

A is the cross-sectional area of the wire,

q is the charge of each carrier.

First, let's find the current I using Ohm's Law:

I = V / R

Where:

V is the voltage applied across the wire,

R is the resistance of the wire.

Given that the voltage is 5 Volts and the resistance is 10 Ω, we have:

I = 5 V / 10 Ω = 0.5 A

Next, we need to determine the number of charge carriers per unit volume. Given that the wire contains 2 × 10^20 electrons, we can assume that the number of charge carriers is the same, so:

n = 2 × 10^20 carriers/m^3

Now, we can calculate the drift velocity:

v_d = (0.5 A) / ((2 × 10^20 carriers/m^3) * (2 × 10^-6 m^2) * (1.6 × 10^-19 C))

Simplifying the expression:

v_d = (0.5 A) / (6.4 × 10^-5 carriers * m^-3 * C * m^2)

v_d = 7.8125 × 10^3 m/s

Therefore, the drift velocity of the charges in the wire when a 5 Volts battery is applied across it is approximately 7.8 × 10^3 m/s. The correct answer is option B.

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"Prove the above channel thickness equation.

Answers

This proves that the channel thickness is constant along the flow and does not depend on the channel width or the velocity of the fluid.

The above channel thickness equation can be proved by making use of continuity equation which states that the product of cross-sectional area and velocity remains constant along the flow.

The velocity of the fluid is directly proportional to the channel depth and inversely proportional to the channel width.

Hence, we can use the following steps to prove the above channel thickness equation: - Continuity equation: A1V1 = A2V2 - Where A is the cross-sectional area and V is the velocity of the fluid. - For a rectangular channel,

A = WD

where W is the channel width and D is the channel depth. - Rearranging the continuity equation for the ratio of channel depth to channel width,

we get: D1/W1 = D2/W2

Substitute D1/W1 = h1 and D2/W2 = h2 in the above equation. - We get the following expression: h1 = h2

The question is incomplete so this is general answer.

This proves that the channel thickness is constant along the flow and does not depend on the channel width or the velocity of the fluid.

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Task 1
Describe what happens at a p-n junction. Your description must
include reference to electrons, holes, depletion regions and
forward and reverse biasing.

Answers

At a p-n junction, the diffusion and recombination of charge carriers form a depletion region, and when forward biased, it allows current flow, while reverse bias inhibits current flow.

What is a  p-n junction?

A P-N junction is an interface or a boundary between two semiconductor material types, namely the p-type and the n-type, inside a semiconductor.

In a p-type semiconductor, the majority carriers are holes, which are essentially positively charged vacancies in the valence band.

In contrast, an n-type semiconductor has excess electrons as the majority carriers. At a p-n junction, the diffusion and recombination of charge carriers lead to the formation of a depletion region.

Forward bias reduces the potential barrier, allowing current flow, while reverse bias increases the barrier, inhibiting current flow.

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A force, F, is applied to a 5.0 kg block of ice, initially at rest, on a smooth surface. What is the velocity of the block after 3.0 s?

Answers

When a force is applied to a 5.0 kg block of ice initially at rest on a smooth surface, we can determine the velocity of the block after 3.0 s using Newton's second law of motion.

Newton's second law states that the acceleration of an object is directly proportional to the net force acting on it and inversely proportional to its mass. Mathematically, it can be expressed as:

F = m * a,

where F is the applied force, m is the mass of the block (5.0 kg), and a is the acceleration.

Since the block is initially at rest, its initial velocity is zero. We can use the kinematic equation to find the final velocity:

v = u + a * t,

where v is the final velocity, u is the initial velocity (zero in this case), a is the acceleration, and t is the time (3.0 s).

To find the acceleration, we rearrange Newton's second law:

a = F / m.

By plugging in the values, we can calculate the acceleration of the block:

a = F / m.

Once we have the acceleration, we can substitute it into the kinematic equation to find the final velocity:

v = 0 + (F / m) * t.

By applying the given force and the mass of the block, we can calculate the final velocity of the block after 3.0 s.

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A trapeze artist swings in simple harmonic motion on a rope that is 10 meters long, Calculate the period of the rope supporting the trapeze.

Answers

A trapeze artist swings in simple harmonic motion on a rope that is 10 meters long, the period of the rope supporting the trapeze is approximately 6.35 seconds.

The period (T) of an object in simple harmonic motion is the time it takes for one complete cycle of motion. In the case of the trapeze artist swinging on a rope, the period can be calculated using the formula:

T = 2π × √(L / g)

where L is the length of the rope and g is the acceleration due to gravity.

Given:

Length of the rope (L) = 10 meters

Acceleration due to gravity (g) = 9.8 m/s²

Substituting these values into the formula, we have:

T = 2π ×√(10 / 9.8)

T ≈ 2π × √(1.0204)

T ≈ 2π * 1.0101

T ≈ 6.35 seconds

Therefore, the period of the rope supporting the trapeze is approximately 6.35 seconds.

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A satellite of mass 658.5 kg is moving in a stable circular orbit about the Earth at a height of 11RE, where RE = 6400km = 6.400 x 106 m = 6.400 Mega-meters is Earth’s radius. The gravitational force (in newtons) on the satellite while in orbit is:

Answers

A satellite of mass 658.5 kg is moving in a stable circular orbit about the Earth at a height of 11RE, where RE = 6400km = 6.400 x 106 m = 6.400 Mega-meters is Earth’s radius.  the gravitational force acting on the satellite while in orbit is approximately [tex]2.443 * 10^4 Newtons.[/tex] Newtons.

The gravitational force acting on the satellite while in orbit can be calculated using the equation for gravitational force:

Force = (Gravitational constant * Mass of satellite * Mass of Earth) / (Distance from satellite to center of Earth)^2

The gravitational constant is denoted by G and is approximately [tex]6.674 * 10^-11 N(m/kg)^2[/tex] The mass of the Earth is approximately [tex]5.972 * 10^{24} kg.[/tex]

The distance from the satellite to the center of the Earth is the sum of the Earth's radius (RE) and the height of the satellite (11RE). Substituting the given values into the equation, we have:

Force =[tex](6.674 * 10^-11 N(m/kg)^2 * 658.5 kg * 5.972 * 10^{24} kg) / ((11 * 6.400 * 10^6 m)^2)[/tex]

Simplifying the expression:

Force ≈ [tex]2.443 * 10^4 Newtons.[/tex]

Therefore, the gravitational force acting on the satellite while in orbit is approximately[tex]2.443 * 10^4 Newtons.[/tex]

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When observing a galaxy the calcium absorption line, which has a rest wavelength of 3933 A is observed redshifted to 3936.5397 A. a)Using the Doppler shift formula calculate the cosmological recession velocity Vr, (c = 300 000km/s). b)Evaluate the Hubble constant H (in units of km/s/Mpc), assuming that the Hubble law Vr = Hd holds for this galaxy. The distance to the galaxy is measured to be 4 Mpc.

Answers

The cosmological recession velocity (Vr) is approximately 272.2272 km/s.the Hubble constant (H) is approximately 2.21 * 10^(-18) km^(-1) s^(-1).

a) To calculate the cosmological recession velocity (Vr) using the Doppler shift formula, we can use the following equation:

Vr = (λ - λ₀) / λ₀ * c

Where:

λ is the observed wavelength

λ₀ is the rest wavelength

c is the speed of light (300,000 km/s)

Given:

λ = 3936.5397 Å

λ₀ = 3933 Å

c = 300,000 km/s

Let's calculate Vr:

Vr = (3936.5397 - 3933) / 3933 * 300,000

  = 0.000907424 * 300,000

  = 272.2272 km/s

Therefore, the cosmological recession velocity (Vr) is approximately 272.2272 km/s.

b) The Hubble constant (H) can be evaluated using the Hubble law equation:

Vr = Hd

Where:

Vr is the cosmological recession velocity

H is the Hubble constant

d is the distance to the galaxy

Given:

Vr = 272.2272 km/s

d = 4 Mpc = 4 million parsecs = 4 * 3.09 * 10^19 km

Let's calculate H:

H = Vr / d

  = 272.2272 / [tex](4 * 3.09 * 10^{19})[/tex]

  ≈ 2.21 * [tex]10^{(-18)} km^{(-1)} s^{(-1)}[/tex]

Therefore, the Hubble constant (H) is approximately 2.21 * [tex]10^{(-18)} km^{(-1)} s^{(-1)}[/tex].

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Consider the mass spectrometer shown schematically in Figure P19.30. The magnitude of the electric field between the plates of the velocity selector is 1600 V/m, and the magnetic field in both the velocity selector and the deflection chamber has a magnitude of 0.0920 T. Calculate the radius of the path for a singly charged ion having a mass m = 3.99 10-26 kg.

Answers

In a mass spectrometer, the electric field between the plates of the velocity selector has a magnitude of 1600 V/m, and the magnetic field in both the velocity selector and the deflection chamber has a magnitude of 0.0920 T. We need to calculate the radius of the path for a singly charged ion with a mass of 3.99 x 10^-26 kg.

The radius of the path for a charged particle moving in a magnetic field can be calculated using the formula r = mv / (|q|B), where r is the radius, m is the mass of the particle, v is the velocity, q is the charge of the particle, and B is the magnetic field.

In the velocity selector, the electric field is used to balance the magnetic force on the charged particle, resulting in a constant velocity. Therefore, we can assume that the velocity of the particle is constant. The magnitude of the electric field is given as 1600 V/m.

Given that the mass of the ion is 3.99 x 10^-26 kg and it is singly charged, the charge (q) can be considered as the elementary charge (e), which is 1.6 x 10^-19 C.

The magnitude of the magnetic field is given as 0.0920 T.

By substituting these values into the formula, we can calculate the radius of the path for the charged ion.

The calculated radius represents the path that the ion will follow in the mass spectrometer under the given conditions of the electric and magnetic fields.

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Find the self inductance for the following
inductors.
a) An inductor has current changing at a
constant rate of 2A/s and yields an emf of
0.5V
b) A solenoid with 20 turns/cm has a
magnetic field which changes at a rate of
0.5T/s. The resulting EMF is 1.7V
c) A current given by I(t) = 10e~(-at) induces an emf of 20V after 2.0 s. I0 = 1.5A and a 3.5s^-1

Answers

The self inductance for each scenario is: (a) -0.25 H, (b) -3.4 H and (c) 2 H. To find the self inductance for each of the given inductors, we can use the formula for self-induced emf:

ε = -L (dI/dt)

where ε is the induced emf, L is the self inductance, and (dI/dt) is the rate of change of current. Rearranging the formula, we have:

L = -ε / (dI/dt)

Let's calculate the self inductance for each scenario:

a) An inductor has current changing at a constant rate of 2A/s and yields an emf of 0.5V.

Here, the rate of change of current (dI/dt) = 2A/s, and the induced emf ε = 0.5V. Plugging these values into the formula:

L = -0.5V / 2A/s

L = -0.25 H (henries)

b) A solenoid with 20 turns/cm has a magnetic field which changes at a rate of 0.5T/s. The resulting EMF is 1.7V.

In this case, we need to convert the turns per centimeter to turns per meter.

Since there are 100 cm in a meter, the solenoid has 20 turns/100 cm = 0.2 turns/meter.

The rate of change of magnetic field (dI/dt) = 0.5 T/s, and the induced emf ε = 1.7V. Plugging these values into the formula:

L = -1.7V / (0.5 T/s)

L = -3.4 H (henries)

c) A current given by I(t) = 10 [tex]e^{-at}[/tex] induces an emf of 20V after 2.0s. I0 = 1.5A and a = 3.5[tex]s^{-1}.[/tex]

To find the self inductance in this case, we need to find the rate of change of current (dI/dt) at t = 2.0s. Differentiating the current equation:

dI/dt = -10a * [tex]e^{-at}[/tex]

At t = 2.0s, the current is I(t) = [tex]10e^{-a*2}[/tex]= 10[tex]e^{-2a}[/tex]. Given I0 = 1.5A, we can solve for a:

1.5A = 10[tex]e^{-2a}[/tex]

[tex]e^{-2a}[/tex] = 1.5/10

-2a = ln(1.5/10)

a = -(ln(1.5/10))/2

Now, we can substitute the values into the formula:

L = -20V / (-10a * [tex]e^{-2a}[/tex])

L = 2 H (henries)

Therefore, the self inductance for each scenario is:

a) -0.25 H (henries)

b) -3.4 H (henries)

c) 2 H (henries)

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Block A, with mass m A

, initially at rest on a horizontal floor. Block B, with mass m B

, is initially at rest on the horizontal top of A. The coefficient of static friction between the two blocks is μ s

. Block A is pulled with an increasing force. It begins to slide out from under B when its acceleration reaches:

Answers

The acceleration at which block A starts to slide out from under block B is [tex]a = (μs * mB * g) / mA[/tex].

When block A is pulled with an increasing force, it experiences a static friction force in the opposite direction. The maximum static friction force that can be exerted between the two blocks is given by the equation. [tex]a = (μs * mB * g) / mA[/tex]

Where μs is the coefficient of static friction, and N is the normal force. For block A to start sliding out from under block B, the maximum static friction force should equal the force pulling block A. Therefore, we have [tex]F_friction = μs * N = F_pull[/tex]

The normal force N is equal to the weight of block B acting downward, which is given by

[tex]N = mB * g[/tex]

Where mB is the mass of block B, and g is the acceleration due to gravity. Substituting N and F_pull into the equation, we get

[tex]μs * mB * g = F_pull[/tex]

Since the force pulling block A is equal to the product of its mass and acceleration ([tex](F_pull = mA * a)[/tex]), we have

[tex]μs * mB * g = mA * a.[/tex]

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Oetwrmine the disintegraticn eneray (Q-votue ) in MeV. Q - Defermine the bindine energy (in MeV) fer tid Hin = Es 2

= Detamine the disintegrian eneroy (Q-waiter in ReV. q =

Answers

The relation between the binding energy and the disintegration energy is given by

Q = [Mb + Md - Mf]c²

Where, Mb = Mass of the parent nucleus,

Md = Mass of the daughter nucleus, and

Mf = Mass of the emitted particle(s).

Part A:

Determine the disintegration energy (Q-value) in MeV.

Q = [Mb + Md - Mf]c²

From the given values, we can write;

Mb = 28.028 u,

Md = 27.990 u, and

Mf = 4.003 u

Substitute the given values in the above equation, we get;

Q = [(28.028 + 27.990 - 4.003) u × 931.5 MeV/u]

Q = 47.03 MeV

Therefore, the disintegration energy (Q-value) in MeV is 47.03 MeV.

Part B:

Determine the disintegration energy (Q-value) in ReV.

Q = [Mb + Md - Mf]c²

We have already determined the disintegration energy (Q-value) in MeV above, which is given as;

Q = 47.03 MeV

To convert MeV into ReV, we use the following conversion factor:

1 MeV = 10³ ReV

Substitute the given values in the above equation, we get;

Q = 47.03 MeV × 10³ ReV/1 MeV

Q = 4.703 × 10⁴ ReV

Therefore, the disintegration energy (Q-value) in ReV is 4.703 × 10⁴ ReV.

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A ball is launched with a horizontal velocity of 10.0 m/s from a 20.0−m cliff. How long will it be in the air? How far will it land from the base of the cliff?

Answers

The ball will land 20.2 m from the base of the cliff.

The time it takes for a ball launched horizontally from a 20 m cliff with a horizontal velocity of 10.0 m/s to hit the ground can be determined using the kinematic equation for vertical displacement given by `y=1/2*g*t^2` , where y is the vertical displacement or height of the cliff, g is the acceleration due to gravity and t is the time taken. The acceleration due to gravity is taken as -9.8 m/s^2 because it acts downwards.Using the formula,`y = 1/2*g*t^2 `=> t = √(2y/g) => t = √(2*20/9.8) => t = √4.08 => t = 2.02 sThe ball will take 2.02 seconds to reach the ground.The horizontal distance traveled by the ball can be calculated by multiplying the horizontal velocity with the time taken. Hence,Distance = velocity × time= 10.0 m/s × 2.02 s= 20.2 m. Therefore, the ball will land 20.2 m from the base of the cliff.

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A point charge is 10 µc. Find the field and potential at a distance of 30 cm?

Answers

The electric field at a distance of 30 cm from a point charge of 10 µC is 3.33 × 10^4 N/C directed radially outward from the charge. The electric potential at that distance is 9 × 10^4 V.

The electric field at a distance of 30 cm from a point charge can be calculated using Coulomb's law: Electric field (E) = k * (Q / r^2),

E = (9 × 10^9 N m^2/C^2) * (10 × 10^-6 C) / (0.3 m)^2 = 3.33 × 10^4 N/C.

Therefore, the electric field at a distance of 30 cm from the point charge is 3.33 × 10^4 N/C

The potential at a distance from a point charge can be calculated using the equation: Potential (V) = k * (Q / r),

V = (9 × 10^9 N m^2/C^2) * (10 × 10^-6 C) / (0.3 m) = 9x 10^4 V.

Therefore, the potential at a distance of 30 cm from the point charge is 9x 10^4 V.

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Two parallel wires are 10.0 cm apart, and each carries a current of 40.0 A.
(a) If the currents are in the same direction, find the force per unit length exerted on one of the wires by the other.
N/m
(b) Repeat the problem with the currents in opposite directions.
N/m

Answers

The force per unit length exerted on one wire by the other when the currents are in the same direction is 0.032 N/m and when the currents are in opposite directions is -0.032 N/m.

When two parallel wires carry currents, they exert forces on each other due to the magnetic fields they produce. If the currents are in the same direction, the force per unit length exerted on one wire by the other can be calculated using the formula

[tex]F = (μ0 * I1 * I2 * L) / (2πd),[/tex]

Where F is the force, μ0 is the permeability of free space, I1 and I2 are the currents in the wires, L is the length of the wire segment, and d is the distance between the wires. If the currents are in opposite directions, the force per unit length can be calculated using the same formula but with one of the currents being negative. In the given problem, the wires are 10.0 cm apart, and each carries a current of 40.0 A.

(a) When the currents in the wires are in the same direction, the force per unit length can be calculated as follows:

[tex]F = (μ0 * I1 * I2 * L) / (2πd)= (4π * 10^-7 T·m/A * 40.0 A * 40.0 A * L) / (2π * 0.1 m)= (32 * 10^-5 * L) / 0.1= 0.032 * L[/tex]

(b) When the currents in the wires are in opposite directions, the force per unit length can be calculated as follows:

[tex]F = (μ0 * I1 * I2 * L) / (2πd)= (4π * 10^-7 T·m/A * 40.0 A * (-40.0 A) * L) / (2π * 0.1 m)= (-32 * 10^-5 * L) / 0.1= -0.032 * L[/tex]

and the negative sign indicates that the forces are attractive, pulling the wires toward each other.

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Determine the output voltage for the network of Figure 2 if V₁ = 2 mV and ra= 50 kn. (5 Marks) Marking Scheme: 1. Calculation using correct Formulae 2. Simulation using any available software 6.8 k V₂ S 91 MQ HF 15 MQ ww www www Figure 2 VGTH=3V k=0.4×10-3 3.3k2

Answers

The output voltage for the given network is 2.9 V.

In the given network if V₁ = 2 mV and ra= 50 kn, the output voltage can be determined . using Kirchoff's voltage law and Ohm's law. In Kirchoff's voltage law, the sum of the voltage drops in a closed loop equals the voltage rise in the same loop. In the network, a closed loop consists of a battery and the circuit's resistance.

Thus,Vin - Ira - Vds = 0 where Vin is the voltage drop across the battery, I is the current, ra is the resistance and Vds is the voltage drop across the resistor. Rearranging the equation, we getVout = Ira which is the voltage drop across the resistance. Using Ohm's law, I=Vds/ra. Substituting Vds=VGTH−Vout and simplifying,Vout=(VGTH-Vin)*ra=3V-2mV*50kΩ=3V-100V=2.9V.Vout = 2.9 V.

Simulation can be carried out using any available software.

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If a beam of light is incident from water (n = 1.33) to crown glass (n1.52) with an incident angle of 40.0 degrees, what is the angle of the refracted beam of light?

Answers

The refracted angle of the light beam, when it moves from water (n = 1.33) into a crown glass (n = 1.52) at an incident angle of 40.0 degrees, is approximately 30.7 degrees.

This value is calculated using Snell's law of refraction, which relates the ratio of the sine of the angles of incidence and refraction to the inverse ratio of the indices of refraction of the two mediums. Snell's law, or the law of refraction, states that the ratio of the sine of the angle of incidence to the sine of the angle of refraction is equivalent to the reciprocal of the ratio of the indices of refraction. In mathematical terms, n1*sin(θ1) = n2*sin(θ2). Here, n1 and n2 are the refractive indices of the first and second medium respectively, and θ1 and θ2 are the angles of incidence and refraction. Given the refractive indices of water (n1 = 1.33) and crown glass (n2 = 1.52), and the angle of incidence (θ1 = 40.0 degrees), we can calculate the angle of refraction (θ2) using this law. This calculation yields an angle of approximately 30.7 degrees.

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An oscillating LC circuit consists of a 91.2 mH inductor and a 4.49 uF capacitor. If the maximum charge on the capacitor is 3.97 HC, what are (a) the total energy in the circuit and (b) the maximum current? (a) Number Units (b) Number Units

Answers

Answer: The maximum current in the circuit is 883.07 A.

Oscillating LC circuit:

An LC oscillation is a circuit that is composed of the capacitor and inductor. In this circuit, the capacitor is fully charged and linked to the uncharged inductor. In LC oscillation, an electric current is set up and undergoes the LC oscillations when a charged capacitor is linked with the inductor.

An oscillating LC circuit consists of a 91.2 mH inductor and a 4.49 µF capacitor.

(a) the total energy in the circuit : The energy stored in a capacitor is given by E=1/2CV^2 where C is the capacitance and V is the voltage. The voltage across the capacitor is given by the expression V=Q/C.

The total energy in the circuit is given by the sum of the energies stored in the capacitor and inductor as;

E = 1/2LI^2 + 1/2CV^2E

= 1/2(91.2 x 10^-3H)(I_max)^2 + 1/2(4.49 x 10^-6 F)(3.97 C)^2E

= 1/2(91.2 x 10^-3H)(I_max)^2 + 1/2(4.49 x 10^-6 F)(3.97 x 3.97) JE

= 1/2(91.2 x 10^-3H)(I_max)^2 + 1/2(4.49 x 10^-6 F)(15.8) JE

= 1/2(91.2 x 10^-3H)(I_max)^2 + 0.03532 J.

(b) Maximum current can be calculated from the following formula:

I_max = Q_max/ C I_max

= 3.97 C / 4.49 x 10^-6 F  

= 883.07 A. Therefore, the maximum current in the circuit is 883.07 A.

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A capacitor has a capacitance of 3.7 x 10-6 F. In the charging process, electrons are removed from one plate and placed on the other plate. When the potential difference between the plates is 610 V, how many electrons have been transferred?

Answers

Approximately 1.4106 x 10^16 electrons have been transferred during the charging process of the capacitor.

To find the number of electrons transferred during the charging process of a capacitor, we can use the equation:

Q = CV

Where:

Q is the charge transferred (in Coulombs),

C is the capacitance of the capacitor (in Farads),

V is the potential difference across the capacitor (in Volts).

Given:

C = 3.7 x 10^(-6) F

V = 610 V

Substituting these values into the equation, we have:

Q = (3.7 x 10^(-6) F)(610 V)

Q = 2.257 x 10^(-3) C

Now, we know that the charge of one electron is approximately 1.6 x 10^(-19) C. To find the number of electrons transferred, we can divide the total charge by the charge of one electron:

Number of electrons = Q / (1.6 x 10^(-19) C)

Number of electrons = (2.257 x 10^(-3) C) / (1.6 x 10^(-19) C)

Performing the calculation, we get:

Number of electrons = 1.4106 x 10^(16)

Therefore, approximately 1.4106 x 10^16 electrons have been transferred during the charging process of the capacitor.

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Provide support your answer.1.2 Explain what you would use the flow measurement data for? 1.3 Use the step by step method to calculate the discharge through the crest crump weir. Do only 4 iterations. 1.4 State two other flow measuring devices or structures that can be used to measure flow. Do not mention the crest crump weir that was given in this question. Quiz Company purchased inventory with a price of$100,000on March 5, 2022. The seller offered a10%trade discount and purchase discounts of2/10,n30. Quiz Company uses a periodic inventory system and uses the gross method to account for purchase discounts. The entry to record payment in full for the inventory on March 12,2022 would include: A credit to cash for$88,200A debit to accounts payable for$98,000Wroug A credit to cash for$100,000A credit to purchase discounts for$2,000 A 43.0-kg boy, riding a 2.30-kg skateboard at a velocity of 5.80 m/s across a level sidewalk, jumps forward to leap over a wall. Just after leaving contact with the board, the boy's velocity relative to the sidewalk is 6.00 m/s, 8.20 above the horizontal. Ignore any friction between the skateboard and the sidewalk. What is the skateboard's velocity relative to the sidewalk at this instant? Be sure to include the correct algebraic sign with your answer. 2. Design a class named Car - having the model, make year, owner name, and price as its data and have methods: (i) constructors to initialize an object (ii) get - displays the data (iii) set takes four parameters to set the data members. In the main method, create an object and call the methods to demonstrate your code works. Amandas Tutoring Services is owned and run by Amanda Morris. She provides French tutoring to students in high school getting ready to write their final exams. Each individual lesson lasts 60 minutes, and Amanda currently keeps all her appointments written down in a book. She wants to upgrade to a simple online system so that she reduces her use of paper and is more environmentally friendly. She would like customers to be able to use the online system to book appointments up to a month in advance. She has asked for your help in creating the system.She wants customers to be able to book a time and day, and indicate what grade the student is in. She checks with each school board to determine what the text the student is using. She has a fixed price for tutoring, regardless of grade level. In these days of Covid-19, she does not want to accept cash so she wants all customers to pay by debit card, so that the money goes directly to the Bank. When a customer makes an appointment, she wants the system to send a booking confirmation email to both the customer and herselfI Need Context Diagram For it It was illegal to: in slavery Please figure out the full load amps of a 25HP 480V three-phase induction motor with an efficiency of 92% and a Power factor of 90% Do u think that president Kennedy address on Cuba helped or interfered with Americans sense of security from foreign threats Three sentences please What explains the success of Islamic & Anglo-Saxon conquestsof their neighboring cultures? How were these cultures similar anddifferent in social organization and religion?