a hydrostatic transmission has pump volumtric efficiency 91 %, a pump mechanical efficiency of 93 %, a motor mechanical efficiency of 95%, and a motor volumetric efficiency of 91%. what is the overall efficiency of the hst (in percent)?

Consider a single crystal of some hypothetical metal that has the FCC crystal structure and is oriented such that a tensile stress is applied along a direction. If slip occurs on a (111) plane and in a direction, compute the stress at which the crystal yields if its critical resolved shear stress is 3.42 MPa.

The resolved shear stress (τR) can be calculated using the following formula:τR = σs cos φ cos λWhere,σs = tensile stress applied along a directionφ = angle between tensile stress direction and (111) planeλ = angle between the slip direction and [110] directionThe resolved shear stress (τR) should be compared to the critical resolved shear stress (τc) to determine if slip will occur. If τR > τc, slip will occur. If τR < τc, the crystal will remain undeformed.In this case, the slip direction is also along [110] and therefore φ = λ.

The critical resolved shear stress (τc) = 3.42 MPa. Hence, for slip to occur,τR > τc ⇒ σs cos φ cos λ > τc cos φ cos λ = 3.42 MPaSince φ = λ, we can simplify the above equation toσs > τc / cos φ⇒ σs > 3.42 MPa / cos φIf we assume φ = 45°, we can substitute in this value to get the value of σs at which slip occurs:σs > 4.83 MPa. Therefore, the stress at which the crystal yields is 3.42 MPa.

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The electric field magnitude at the position of a 30 nC charge that experiences a 0.038 N electric force is 1,266,666.67 N/C.

What is the magnitude of the electric field?

The magnitude of the electric field can be calculated using the formula below:

|E|=|F|/q

Where |E| represents the magnitude of the electric field; |F| represents the magnitude of the electric force on the charged particle; and q is the charge on the particle

Substituting the given values into the equation yields:

|E|=|F|/q

=0.038 N/30 nC

=1,266,666.67 N/C

Thus, the magnitude of the electric field at the position of this charge is 1,266,666.67 N/C.

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The statements that correctly describe the processes occurring in the flask  are A and B. C and D are incorrect statetment.

a) States that the relative amounts of liquid and vapor in the flask remain constant, which is true as equilibrium has been reached, meaning that the rate of evaporation equals the rate of condensation. b) states that molecules are leaving and entering the liquid phase at the same rate, which is also true as equilibrium has been reached.

c) and d) are incorrect because they do not accurately describe the processes occurring in the flask; while the system is at equilibrium, it is still in a state of change with molecules leaving and entering the liquid phase at the same rate.  

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The potential energy of the ball at this point is maximum as the ball has the highest height at this point.
The momentum of the ball at this point is given by the product of mass and velocity. As the velocity of the ball is zero, its momentum is also zero.
Momentum = 0, KE = 0, PE > 0
Hence, the ranks of quantities at each point are as follows:
A) C, B = D, A
B) C, B = D, A
C) A, B = D, C

The ball is at rest at the left of the metal track. It is assumed to have enough friction to roll, but not enough to reduce its speed. In this question, we have to rank the quantities from the greatest to the least at each point. Given below are the quantities that are to be ranked,

a) Momentum,

b) KE,

c) PE.
Rank of quantities at each point:
At point A: Here, the ball has the maximum height. It is at rest at this point. At this point, the ball has the highest potential energy, PE.
PE>KE=0
The velocity of the ball at this point is zero. Hence, the kinetic energy of the ball is zero.
The momentum of the ball is given by the product of mass and velocity. As the velocity of the ball is zero, its momentum is also zero.
Momentum = 0, KE = 0, PE > 0
At point B: At this point, the ball has converted some of its potential energy into kinetic energy. The ball has lost some of its height, and hence, its potential energy.
[tex]PE>BKE, KE>BPE[/tex]
As the ball is moving, it has some velocity. Hence, it has kinetic energy.
The momentum of the ball at this point is given by the product of mass and velocity. As the velocity of the ball is non-zero, its momentum is also non-zero.
Momentum > 0, KE > 0, PE < 0
At point C: At this point, the ball has lost all its potential energy, and all of it is converted into kinetic energy.
[tex]KE>CPE, PEC=0[/tex]
The velocity of the ball is the highest at this point. Hence, the kinetic energy of the ball is the highest at this point.
The momentum of the ball at this point is given by the product of mass and velocity. As the velocity of the ball is the highest at this point, its momentum is also the highest.
Momentum > 0, KE > 0, PE = 0
At point D: At this point, the ball has lost all its kinetic energy due to friction. Hence, it comes to rest at this point.
KE=0, PED>0

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Answer:

Explanation:

a) The mass of the cube can be calculated using the equation Mass = Volume x Density. The volume of the cube can be calculated as (5.00×10 cm)^3 = 125 cm³. Substituting this volume into the equation gives Mass = 125 cm³ x 7.86 g/cm³ = 983.5 g.

b) The number of iron atoms in the cube can be calculated using Avogadro's number (6.02 x 10^23 atoms/mol). The number of moles can be calculated using the molar mass of iron, 55.9 g/mol. Thus, the number of moles can be calculated as 983.5 g / 55.9 g/mol = 17.61 moles. Multiplying this by Avogadro's number gives the number of iron atoms in the cube as 1.07 x 10^24 atoms.

The fluid movement in a lava lamp is caused by the heat generated from the lamp's light bulb, which causes the wax or oil to rise and fall.

A lava lamp contains two fluids of different densities that do not mix. The fluids heat up as a result of the lamp's light bulb, causing them to expand and become less dense. The wax or oil floats up when it becomes less dense than the fluid that surrounds it, creating a globe at the top of the lamp.

The fluid is then cooled by the environment and becomes more dense, causing the wax to sink back to the bottom. This constant motion cycle creates the flowing effect seen in a lava lamp.

The heat from the light bulb causes the fluid to expand, and as it does, it becomes less dense than the surrounding fluid, causing it to float. When the fluid cools, it becomes denser and settles back down to the bottom. This cyclic motion creates the soothing flow of a lava lamp.

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Each tic mark indicates a time period of 9 seconds if the scale on the horizontal axis has a division of 9 seconds. As a result, the third tic point on the horizontal axis would denote the following period of time:

3 x 9 s = 27 s

Hence, 27 seconds are indicated by the third tic point on the horizontal axis.

It is true! The third tic point would represent three times nine seconds, or 27 seconds, as each tic mark on the horizontal axis denotes a time interval of nine seconds.Each tic mark indicates a time period of 9 seconds if the scale on the horizontal axis has a division of 9 seconds. As a result, the third tic point on the horizontal axis would denote the following period of time:Hence, 27 seconds are indicated by the third tic point on the horizontal axis.

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Hominin remains have been found at sites throughout Africa, Europe, and Asia. Below are five of these fossil sites and their main finds. The correct order of the given hominin fossil sites from oldest to youngest is Omo kibish, Klasies river, Herto, and Tianyuan cave.

Omo kibish is incomplete fossil skull (oldest)The oldest fossil site on the list is Omo kibish in Ethiopia, which is dated to around 195,000 years ago. The site has a partial skull, lower jawbone, and a few other fragments of the skull. Klasies river is fragmentary hominin remains Klasies river Mouth in South Africa is dated back to around 120,000 years ago. The site contains human fossils along with the remains of other animals.

Herto is a skull intermediate between H. heidelbergensis and modern H. sapiens, Herto Bouri in Ethiopia, dated to around 160,000 years ago. The site contains 3 complete hominid skulls which were much more modern than expected for their age. The skulls were similar to Homo sapiens, but with some differences. Tianyuan cave is modern human maniple and femur (youngest). Tianyuan cave in China, dated to around 40,000 years ago, contains one of the earliest modern human fossils. A complete set of human teeth and bones from a foot, leg, and hand were found at this site.

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The energy of the incident electron is 26.3 keV. The energy is calculated from the conservation of energy which states that the initial energy is equal to the final energy of the electrons. Total energy is sum of kinetic energy and potential energy of the electrons.

The initial energy of the incident electron can be determined using the following equation:

[tex]E_{initial}= \Delta K + E_{final} + U[/tex]

where ΔK is the change in kinetic energy, [tex]E_{final}[/tex] is the final energy, and U is the potential energy.

Here, the second electron is initially at rest, and after the collision, the trajectories of the two electrons are at 90° to a uniform magnetic field. The magnetic force is perpendicular to the direction of motion, and hence, there is no work done. The potential energy U is, therefore, zero.

Initially, only the incident electron has energy, and hence, its initial energy is equal to its kinetic energy.

[tex]E_{initial} = \Delta K + E_{final}[/tex]

But, [tex]E_{final} = \frac{1}{2}mv_f^2[/tex]

Therefore,

[tex]E_{initial} = \Delta K + \frac{1}{2}mv_f^2[/tex]

The change in kinetic energy ΔK can be calculated using the following equation:

[tex]\Delta K = K_f - K_i[/tex]

But, [tex]K_i = \frac{1}{2}mv_i^2[/tex] where, [tex]v_i[/tex] is the initial velocity of the incident electron.

Therefore,

[tex]\Delta K = K_f - K_i= \frac{1}{2}mv_f^2 - \frac{1}{2}mv_i^2[/tex]

Substituting the given values,

[tex]\Delta K = \frac{1}{2}(9.11 \times 10^{-31} kg)(4.24\times 10^5 m/s)^2 - \frac{1}{2}(9.11\times10^{-31} kg)(3\times10^8 m/s)^2\\= -4.22\times10^{-15} Joules[/tex]

The energy of the incident electron can be converted to keV by dividing it by the charge of an electron and then multiplying by 1000.eV .

Therefore,

[tex]E_{initial} = 4.22 \times 10^{-15} J / (1.602 \times 10^{-19} C/eV)\\ = 26.3 keV[/tex]

Thus, the energy of the incident electron is 26.3 keV.

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The statement the construction of psychological profiles is a process of mapping the characteristics of offenders of previously solved crimes and applying them to offenders of unsolved ones is TRUE.

Psychological profiling is a technique used by law enforcement agencies to identify the characteristics of an offender based on their behavior patterns, motives, and other psychological traits. It is a process of creating a psychological profile of an offender by analyzing the crime scene, victimology, and other evidence related to the crime.

This profile is then compared with the profiles of previously solved crimes to identify potential suspects or patterns that can be used to solve unsolved crimes. The process involves mapping the characteristics of offenders of previously solved crimes and applying them to offenders of unsolved ones.

The psychological profile is based on the assumption that an offender's behavior is consistent across different crimes and that it reflects their personality traits and motivations. This technique has been used successfully in many high-profile cases and has helped law enforcement agencies to identify and apprehend serial offenders.

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When 872.0 kJ of thermal energy are injected, the temperature of the 25 kg of water in the car's cooling system changes by 35.0 degrees Celsius.

Water's specific heat capacity (J/(gK), or 4,180 J/ (kgK). Thus, we can use the following formula to get the temperature change:

Q = mcΔT

where Q is the extra thermal energy (872 000 J), m the water mass (25 kg), c the water's specific heat capacity (4,180 J/(kg*K)), and T the temperature change.

When we solve for T, we get:

The equation T = Q/(mc) Equals 872,000 J/(25 kg * 4,180 J/(kgK)) = 35.0 °C.

When 872.0 kJ of thermal energy are injected, the temperature of the 25 kg of water in the car's cooling system changes by 35.0 degrees Celsius.

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The final velocity of the plane after a missile of mass 1.20 102 kg is fired from the plane  is 0.255 m/s.

To find the final velocity of the plane when a missile of mass 1.20 x 10² kg is fired from a plane of mass 4.80 x 10³ kg initially moving at a speed of 3.25 x 10² m/s, and the speed of the missile relative to the plane is 1.06 x 10³ m/s, we can use the conservation of momentum.The initial momentum of the system is given by:

m1v1 + m2v2 = (m1 + m2)vf

where m1 = mass of missile, m2 = mass of the plane, v1 = velocity of the missile, v2 = velocity of the plane, and vf = final velocity of the system

Substituting the given values, we get:(1.20 x 10² kg) (1.06 x 10³ m/s) + (4.80 x 10³ kg) (3.25 x 10² m/s) = (1.20 x 10² kg + 4.80 x 10³ kg) vf

Simplifying, we get:1284 = (5.04 x 10³ kg) vf

Therefore, vf = 1284 / (5.04 x 10³ kg) = 0.255 m/s. So, the final velocity of the plane is 0.255 m/s.

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Exactly at noon, as determined by the WWV time signal, on successive days of a week the clocks according to their relative value as good timekeepers, best to worst.

Time signals are also used in many everyday applications, such as GPS navigation, where precise timing is essential for calculating positions accurately.  A time signal refers to any signal that provides information about the passage of time. Time signals are often used in experiments to measure the duration of events or to synchronize the timing of multiple processes.

One common type of time signal is a periodic signal, which repeats itself at regular intervals. This can be used to measure the period or frequency of a phenomenon, such as the oscillation of a pendulum or the vibration of a guitar string. Another type of time signal is a pulse signal, which provides a brief burst of energy at a specific time. This can be used to trigger the start or stop of a process or to measure the time delay between different events.

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The volume of the solid obtained by rotating the region in the first quadrant bounded by the curves x = 0, y = 1, x = y^7 about the line y = 1 is 0.

To determine the volume of the solid obtained by rotating the region in the first quadrant bounded by the curves x = 0, y = 1, x = y^7 about the line y = 1, we need to use a specific integral formula.

The volume of the solid is calculated by multiplying the area of the cross-section of the solid, which is perpendicular to the axis of rotation, with the distance traveled by the center of mass of the cross-section. And, when this product is summed up across the length of the solid, we get the volume of the solid.

To solve the given problem, the area of the cross-section of the solid is [tex]\pi (r)^2[/tex], where r is the distance from the line y = 1 to the curve [tex]x = y^7[/tex]. Since the cross-section is a circle, we know the area of the cross-section can be represented by the equation of a circle with radius r, which is [tex]\pi (r)^2[/tex].

To find the value of r, we will equate  [tex]x = y^7[/tex] to the line y = 1. By solving for y, we get: [tex]y = 1^{1/7} = 1[/tex].

Hence, r = 1 - 1 = 0.

We can now compute the volume of the solid using the integral formula:

[tex]V =\int_0^1 \pi (r)^2 dy\\V = \int_0^1 \pi (0)^2 dy\\V = \int_0^1 0 dy\\V = 0[/tex]

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Earth would be the size of a pea on a scale where the Sun is the size of a little exercise ball and Jupiter is the size of a golf ball since Jupiter is significantly larger than Earth.

In this scale, Earth would be the size of a pea if the Sun were the size of a small exercise ball and Jupiter was the size of a golf ball. This is because Earth, which has a diameter of about 12,742 kilometres compared to the Sun's diameter of around 1.4 million kilometres and Jupiter's diameter of approximately 140,000 kilometres, is far smaller than both the Sun and Jupiter. Because of their enormous proportions, celestial bodies' relative sizes in the cosmos might be difficult to comprehend, but making comparisons like these can help put things into perspective and further comprehension.

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The position d of the 6-kn load such that the average normal stress in both rods supporting the beam is the same is 111.5 mm.

First we derive the formula for average normal stress.σaverage = Force/Area

σaverage = P/A .Take 1 as the cross-sectional area of rod ab and find the force it's bearing.Force on rod ab will be equal to the weight of the beam acting downwards + the weight of the 6-kn load acting downwards.

Force = 4×10^4 N + 6×10³ N

Force = 46×10³ N

Now substitute the values in the formula.σ average 1 = P/A

σ average 1 = (46×10²)/(12×10^-6)

σ average 1 = 3.83×10^9 Pa

Now take 2 as the cross-sectional area of rod cd and find the force it's bearing.Force on rod cd will be equal to the weight of the 6-kn load acting downwards.Force = 6×10³ N

Now substitute the values in the formula.σ average 2 = P/A

σ average 2 = (6×10³)/(8×10^-6)

σ average 2 = 0.75×10^9 Pa

σ average 1 = σ average 2 (As given in the question)3.83×10^9 = 0.75×10^9 + (6×10³/A)A = 14.26 mm.The position of the 6-kn load d = 140 mm - 28.5 mm = 111.5 mm.Hence, the position d of the 6-kn load such that the average normal stress in both rods is the same is 111.5 mm.

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a)  The net Work done is zero. b) The work done on the block by the applied force F as the block moves a distance L is -41.2 J. c) The work done on the block by the applied force F as the block moves a distance L is 41.2 J.

Given:

Weight of the block (w) = 25.0 N

Distance moved by the block (d) = 3.40 m

The angle of the inclined plane (θ) = 29.0°

a) we know that from the work-energy theorem,

W = change in kinetic energy

But since speed is constant which means no change in KE, hence the net Work done is zero.

b) W = -mgy

W = -25 × (3.10 × sin29°)

W = -41.2 J

Therefore, the work done on the block by the force of gravity is -41.2 J.

c) The work done on the block by the applied force F as the block moves a distance L = 3.10m up the incline is,

W = Fd

W = 12.1 × 3.1

W = 41.2 J

Therefore, the work done on the block by the applied force F as the block moves a distance L is 41.2 J.

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Coordinate , A - the height of the stone when it hits the water. A slingshot sends a stone vertically upward from a height of 20 feet above a pool of water.

The coordinate A represents the height of the stone when it hits the water. When the stone hits the water, its height above the water surface is zero.

So, we can set the expression for the stone's height equal to zero and solve for t to find the time when the stone hits the water. The height of the stone when it is launched is given as 20 feet, which is a fixed value in this problem.

The time when the stone is launched is also a fixed value, which is zero. The maximum height of the stone is the highest point the stone reaches above its initial height of 20 feet. The time when the stone reaches its maximum height is the time at which the vertical velocity of the stone becomes zero.

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David travelled a total of 5 kilometres.

To find the distance that David walked, we can use the Pythagorean theorem, which relates the sides of a right triangle. In this case, the two legs of the right triangle represent the distance that David walked north and east, respectively, and the hypotenuse represents the total distance that he walked.

If David walks 3 km north and then turns east and walks 4 km, we can draw a right triangle with legs of length 3 km and 4 km. Applying the Pythagorean theorem, we have:

distance²2 = (3 km)²+ (4 km)²

distance²2 = 9 km²+ 16 km²

distance = √(25) km

distance = 5 km

Therefore, the total distance that David walked is 5 km.

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We must figure out the total voltage and current required to generate 60 watts of electricity in order to calculate the number of dry cells necessary to light the bulb.

Voltage (V) x Current Equals Power (P) (I)

We are provided 220 volts of voltage and 60 watts of power (P). Hence, the current (I) may be determined as follows:

I equals P / V at 60 W and 220 V, or 0.273 A.

We must sum the EMFs of the cells in series in order to determine the overall voltage needed to power the light using dry cells:

n times EMF = V total

the number of cells is n.

Since the EMF of each cell is 1.5 volts, the total voltage needed may be written as follows:

1.5 n V total

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In the context of the motor control process related to the speed-accuracy trade-off, the initiation phase of movement includes the beginning of limb movement in the direction of a target.

Motor control is the ability to regulate and coordinate motor skills to achieve a desired outcome. The central nervous system (CNS) is in charge of regulating these skills. The CNS is divided into two parts: the peripheral nervous system (PNS) and the central nervous system (CNS). Motor skills are regulated by both parts of the nervous system. The CNS, on the other hand, is more involved in higher-level motor control.

A motor control system can be divided into three stages: planning, initiation, and execution. When the central nervous system processes the desired movement, it activates the motor program in the initiation stage, which produces the motor command sent to the muscles. Movement is initiated by the initiation stage. Following that, the movement is executed to meet the task's requirements. The motor program adjusts movement by making corrections based on previous trials and feedback. Therefore, the initiation phase is critical in the context of the motor control process related to the speed-accuracy trade-off.

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Potential Energy of Object W, X, Y and Z are 0 J, 7.84 J, 15.7J and 23.5J, for better understand we have to know the meaning of potential energy.

Potential energy in physics is the energy that an item retains as a result of its location in relation to other objects, internal tensions, electric charge, or other elements. Potential energy develops in systems having components whose configurations, or relative positions, determine the amount of the forces they apply to one another.

Potential Energy of an Object = m * g * h

Where, m = mass,

g = gravity, and

h = height

Potential Energy of Object W = 2 * 9.8 * 0

= 0 J

Potential Energy of Object X = 2 * 9.8 * 0.4

= 7.84 J

Potential Energy of Object Y = 2 * 9.8 * 0.8

= 15.68 J

≈ 15.7 J

Potential Energy of Object Z = 2 * 9.8 * 1.2

= 23.5 J

Therefore, Potential Energy of Object W, X, Y and Z are 0 J, 7.84 J, 15.7 J and 23.5 J.

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The fluid force on one side of the 5ft by 5ft plate lying flat on its 5ft by 5ft face, we can use the equation F = ρghA and the F = 1,945,000 N.

Since the plate is at the bottom of the pool and the pool is filled with water to a depth of 8ft, h = 8ft and the area of the plate A = 5ft × 5ft = 25ft².

There F is the fluid force, ρ is the density of the fluid, g is the acceleration due to gravity, h is the depth of the fluid, and A is the area of the plate.

Therefore, the fluid force on one side of the plate is:

F = ρghA = 1000kg/m³ × 9.81m/s² × 8ft × 25ft² = 1,945,000 N.

To calculate the fluid force on one side of the plate resting vertically on a 5 ft edge, we can use the same equation as above but with an area equal to the length of the plate multiplied by the depth of the pool (8ft):

F = ρghA = 1000kg/m³ × 9.81m/s² × 8ft × 5ft = 392,000 N.

To calculate the fluid force on one side of the plate resting on a 5ft edge and tilted at 45 degrees to the bottom of the pool, we can use the same equation as above but with an area equal to the length of the plate multiplied by the depth of the pool multiplied by the cosine of the angle of the plate:

F = ρghA = 1000kg/m³ × 9.81m/s² × 8ft × 5ft × cos(45) = 283,200 N.

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a) The magnetic field at the center of loop 20.0 cm in diameter carrying is equals to the 2.8274×10⁻⁵ T.

b) Smallest magnetic field that change measured value by 0.0100% is equals to the 2.8274×10⁻⁹ T.

We know that moving charges create magnetic fields and magnetic fields exert forces on moving charges, devices that are used to measure field strengths. Consider the wire segment present in above figure.

A) Diameter of wire segment, d = 20 cm or 0.2 m carrying current I = 4.5 A

Magnetic Field at the center of current loop of segment, B= μ₀I/d

= 4π×10⁻⁷×4.5/0.2

= 2.8274×10⁻⁵ T

Therefore magnetic Field at the center of current loop 2.8274×10⁻⁵ T.

B) Current in carrying wire, I = 4.5 A

The field should be less than the measured field by 0.0100%. So, smallest field that change measured value by 0.0100% = 0.0100% of 2.8274×10⁻⁵ T

= 2.8274×10⁻⁹ T

Therefore Smallest field that change measured value by 0.0100% = 2.8274×10⁻⁹ T

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Complete question:

The above figure completes the question.

Since moving charges create magnetic fields and magnetic fields exert forces on moving charges, devices that are used to measure field strengths often affect the system they are being used to measure. Consider the wire segment in the figure, which is used to measure the magnetic field by determining the foree exerted on the current flowing through it. Part (a) Estimate the field the loop creates by calculating the field strength, in teslas, at the center of a circular loop 20.0 cm in diameter carrying

Part (b) What is the smallest field strength this loop can be used to measure with a 4.5 -A current, if its field should alter the measured field by 0.0100% or less?

Answer: temperature

Explanation: The last postulate of the kinetic molecular theory states that the average kinetic energy of a gas particle depends only on the temperature of the gas. Thus, the average kinetic energy of the gas particles increases as the gas becomes warmer.

In this case, the roller coaster starts with kinetic energy because it has an initial speed of 5 m/s.

Since the roller coaster's total energy is conserved throughout the ride, its final speed when it reaches the bottom will be the same as its initial speed of 5 m/s.

As it goes uphill, the kinetic energy is gradually converted into potential energy, so its speed decreases until it reaches the top, where it has only potential energy. When it stops, all the kinetic energy has been converted to potential energy. As the roller coaster rolls back down, the potential energy is converted back to kinetic energy, and its speed increases until it reaches the bottom, where all the potential energy has been converted back to kinetic energy.

This is because the roller coaster's potential energy at the top is equal to the sum of its initial kinetic energy and the work done by gravity as it went uphill. The roller coaster then converts all of its potential energy back into kinetic energy as it rolls back down the hill.

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The factor that does not determine how much gravitational potential energy is in an object-earth system is the object's mass.

An object-earth system is a system in which an object interacts with the earth by exerting a force of attraction. The object's energy is derived from the work done by gravitational forces when the object is moved away from the earth's surface.

An object in an object-earth system's gravitational potential energy is the work done by gravitational forces on the object when it is moved from a lower position to a higher one in the object-earth system. The factor that does not determine how much gravitational potential energy is in an object-earth system is the object's mass. The gravitational potential energy of an object in the earth-object system is determined by the distance between the object and the earth's surface. The gravitational potential energy of an object increases as the distance between it and the earth's surface increases.

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Answer:

To make it around the circle, the tension in the string must provide the necessary centripetal force to keep the ball moving in a circle. At the top of the circle, the tension in the string must provide all the force to keep the ball moving in a circle. At the bottom of the circle, the tension in the string must provide the centripetal force in addition to the force of gravity.

We can use the centripetal force formula to solve for the minimum velocity: F_c = m * a_c

where F_c is the centripetal force, m is the mass of the ball, and a_c is the centripetal acceleration.

At the top of the circle, the centripetal force is equal to the tension in the string: F_c = T

where T is the tension in the string.

At the bottom of the circle, the centripetal force is equal to the sum of the tension in the string and the force of gravity:

F_c = T + mg

where m is the mass of the ball, g is the acceleration due to gravity (9.8 m/s^2), and T is the tension in the string.

The centripetal acceleration is given by: a_c = v^2 / r

where v is the velocity of the ball and r is the radius of the circle.

Since the circle has a radius of 0.33 m, we can substitute this into the equation for a_c: a_c = v^2 / 0.33

Combining these equations, we get:

At the top of the circle: T = m * v^2 / 0.33

At the bottom of the circle: T + mg = m * v^2 / 0.33

We can solve for the minimum velocity by using these two equations to eliminate the tension in the string: m * v^2 / 0.33 + mg = m * v^2 / 0.33

Simplifying this equation, we get: v = sqrt(0.33 * g)

Plugging in the values, we get: v = sqrt(0.33 * 9.8) = 1.81 m/s

Therefore, the minimum velocity that the ball must have to make it around the circle is 1.81 m/s

Answer: Noble Gases (Blue)

Answer:

D = 3.5 m      to mirror

d = 1.50 m     from mirror to sister

Total distance from camera to sister = d + D = 5.0 m