Scientists explored how hoverflies detect motion by testing their response to a free-fall condition. Hoverflies were dropped from rest in a 40-cm -tall enclosure. Air resistance was not significant, and the flies could easily withstand a crash landing. The illumination in the enclosure and the patterning of the walls were adjusted between trials. Hoverflies dropped in darkness were generally not able to detect that they were falling in time to avoid crashing into the floor, while hoverflies dropped in a lighted enclosure with striped walls were generally able to avoid this fate. The findings imply that hoverflies rely on a visual rather than a kinesthetic sense to detect the condition of free fall. Suppose a hoverfly detects that it is falling 150 ms after being dropped, a typical time, and then starts beating its wings.
How far has it fallen after 150 ms?
What subsequent vertical acceleration is needed to avoid a crash landing?

Answers

Answer 1

To avoid a crash landing, the hoverfly would need to achieve a subsequent vertical acceleration equal to or greater than the acceleration due to gravity (approximately 9.8 m/s²) to slow down and eventually come to a stop before hitting the ground.

After 150 ms, the hoverfly has fallen a certain distance due to gravity. To calculate this distance, we can use the equation of motion:

distance = initial_velocity × time + 0.5 × acceleration × time²

In this case, the initial velocity is 0 (since the hoverfly is dropped from rest), acceleration is the gravitational constant (9.81 m/s²), and time is 0.15 s (150 ms). Plugging in the values, we get:

distance = 0 × 0.15 + 0.5 × 9.81 × (0.15)² = 0.110475 meters, or approximately 11 cm.

To avoid a crash landing, the hoverfly needs to achieve an upward vertical acceleration greater than gravity's downward acceleration (9.81 m/s²). This value can vary depending on the hoverfly's ability to generate lift with its wings, but it must be greater than 9.81 m/s to counteract the downward motion and prevent a crash landing.

You can learn more about acceleration at: brainly.com/question/2303856

#SPJ11


Related Questions

which best describes elements that are shiny, malleable, ductile, and good conductors of heat and electricity?

Answers

Answer:

Explanation:

They are called metals. Metals that are shiny, malleable, ductile and solid are great conductors of electricity EXCEPT mercury because mercury is the only metal that is a liquid at room temperature. Metals that can be hammered or rolled into sheets are ductile and the metal that are drawn into wires are malleable.

a refracting telescope is used to view the moon. the focal lengths of the objective and eyepiece are 2.24 m and 17.2 cm, respectively. What should be the distance between the lenses? ... m

Answers

The distance between the lenses should be approximately 2.2523 meters.

To find the distance between the lenses of a refracting telescope, you can use the lens maker's equation:

1/f = 1/f_o + 1/f_e,

where f is the combined focal length of the system, f_o is the focal length of the objective lens (2.24 m), and f_e is the focal length of the eyepiece lens (0.172 m, since you need to convert 17.2 cm to meters).

First, find the combined focal length (f) using the equation:

1/f = 1/2.24 + 1/0.172
1/f = 0.44642857 + 5.81395349
1/f = 6.26038206
f ≈ 0.1597 m

Now, to find the distance between the lenses, you can use the following equation:

distance = f_o + f_e - f
distance = 2.24 + 0.172 - 0.1597
distance ≈ 2.2523 m

So, the distance between the lenses should be approximately 2.2523 meters.

Learn more about lens maker's equation here: https://brainly.com/question/30898654

#SPJ11

Two charged particles, Qi 12.0 mC, Q--5.0mC are placed on a line. At what finite locations along the line may the electric potential be equal to zero? I. in betw een the particies, closer to the positive particle II. in between the particles, closer to the negative particle III. not in between, but closer to the positive particle IV. not in between, but closer to the negative particle V. It can never be zero. s o 12 A. I only B. II only C. V only D. I and IV E. II and IV

Answers

The electric potential can be equal to zero at locations between the particles, closer to the positive or negative particle.

To find the location where the electric potential is zero, we need to use the equation for the electric potential: V=kQ/r, where k is Coulomb's constant, Q is the charge of the particle, and r is the distance from the particle. If we set V equal to zero, we can solve for r and find the locations where the potential is zero.

We can see that the potential is inversely proportional to the distance, so if we move closer to the positive particle, the potential will increase, and if we move closer to the negative particle, the potential will decrease. Therefore, the potential can be zero in between the particles, closer to either particle.

It cannot be zero outside of these locations because the potential will always have some non-zero value at any other location. Therefore, the correct answer is D, I and IV.

Learn more about Coulomb's constant here:

https://brainly.com/question/9658349

#SPJ11

A transistor with β = 100 is biased to operate at a dc collector current of 0.5 mA. Find the values of g, rr, and re Repeat for a bias current of 50 μA.

Answers

Therefore, for a bias current of 0.5 mA, g ≈ 1.92 mA/V, rr ≈ 200 kΩ, and re ≈ 52 Ω. For a bias current of 50 μA, g ≈ 0.192 mA/V, rr ≈ 2 MΩ, and re ≈ 520 Ω.

To solve this problem, we can use the following equations for a common-emitter amplifier:

g = β * Ic / Vt

rr = Vaf / Ic

re = Vt / Ie

where β is the current gain, Ic is the collector current, Vt is the thermal voltage (≈ 26 mV at room temperature), Vaf is the early voltage, and Ie is the emitter current.

(a) For Ic = 0.5 mA:

g = β * Ic / Vt = 100 * 0.5 mA / 26 mV ≈ 1.92 mA/V

rr = Vaf / Ic (assume Vaf = 100 V) = 100 V / 0.5 mA = 200 kΩ

re = Vt / Ie (assume Ie ≈ Ic) = 26 mV / 0.5 mA ≈ 52 Ω

(b) For Ic = 50 μA:

g = β * Ic / Vt = 100 * 50 μA / 26 mV ≈ 0.192 mA/V

rr = Vaf / Ic (assume Vaf = 100 V) = 100 V / 50 μA = 2 MΩ

re = Vt / Ie (assume Ie ≈ Ic) = 26 mV / 50 μA ≈ 520 Ω

To know more about bias current,

https://brainly.com/question/17192941

#SPJ11

The radius of a sphere is increasing at a rate of 4 mm/s. How fast is the volume increasing when the diameter is 40 mm? Enhanced Feedback Please try again. Keep in mind that the volume of a sphere with radius r is V=-π r3. Differentiate this equation with respect to time t using the Chain Rule to find the equation for the rate at which the volume is increasing, Then, use dV dt the values from the exercise to evaluate the rate of change of the volume of the sphere, paying close attention to the signs of the rates of change (positive when increasing, and negative when decreasing). Have in mind that the diameter is twice the radius

Answers

The volume of the sphere is increasing at a rate of 64π mm^3/s when the diameter is 40 mm.

Let's start by finding an expression for the rate of change of volume with respect to time using the formula for the volume of a sphere:

V = (4/3)πr^3

Taking the derivative with respect to time t, we get:

dV/dt = 4πr^2 (dr/dt)

where dr/dt is the rate of change of the radius with respect to time.

Since the diameter is 40 mm, the radius is half of that, or 20 mm. The rate of change of the radius is given as 4 mm/s.

Plugging in these values, we get:

dV/dt = 4π(20 mm)^2 (4 mm/s) = 64π mm^3/s

For more question on volume click on

https://brainly.com/question/14197390

#SPJ11

The volume of the sphere is increasing at a rate of 6400π [tex]mm^3/s[/tex] when the diameter is 40 mm.

The volume of a sphere with radius r is given by V = [tex](4/3)πr^3[/tex]. Differentiating this equation with respect to time t using the Chain Rule, we get:

dV/dt = 4π[tex]r^2[/tex] (dr/dt)

where dr/dt is the rate at which the radius is increasing with time.

Since the diameter is twice the radius, when the diameter is 40 mm, the radius is 20 mm. Also, we are given that dr/dt = 4 mm/s.

Substituting these values into the above equation, we get:

dV/dt = 4π[tex](20)^2[/tex](4) = 6400π [tex]mm^3/s[/tex]

Therefore, the volume of the sphere is increasing at a rate of 6400π [tex]mm^3/s[/tex] when the diameter is 40 mm.

Learn more about Chain Rule here:

https://brainly.com/question/28972262?

#SPJ11

if the mass of body a and b are equal but ka = (1/3)kb, then ____________.

Answers

If the mass of body A and body B are equal, but the spring constant of the spring connected to body A, ka, is one-third (1/3) of kb, then the relationship between the two bodies can be explained using Hooke's Law and the concept of stiffness.

Hooke's Law states that the force exerted by a spring is directly proportional to the displacement of the spring from its equilibrium position. Mathematically, it can be expressed as:

F = -kx

Where:

F is the force exerted by the spring,

k is the spring constant, and

x is the displacement from the equilibrium position.

In this scenario, since the masses of bodies A and B are equal, the gravitational force acting on each body is the same. Therefore, we can focus on the forces exerted by the springs connected to these bodies.

According to Hooke's Law, for a given displacement from the equilibrium position, the force exerted by the spring is directly proportional to the spring constant. In other words, a spring with a higher spring constant exerts a stronger force for the same displacement compared to a spring with a lower spring constant.

Given that ka = (1/3)kb, it means that the spring connected to body A is less stiff (or less rigid) than the spring connected to body B. Since both bodies have equal masses, the force exerted by each spring will be equal when they are in equilibrium. However, for the same displacement, the spring with the higher spring constant (kb) will exert a greater force compared to the spring with the lower spring constant (ka).

In summary, the relationship between the two bodies can be understood as follows: When subjected to the same displacement, body B connected to the stiffer spring (kb) will experience a stronger force compared to body A connected to the less stiff spring (ka).

To know more about Hooke's Law, please click on:

https://brainly.com/question/30379950

#SPJ11

a diffraction grating with 335 lines/mmlines/mm is 1.55 mm in front of a screen. What is the wavelength of light whose first-order maxima will be 16.4 cm from the central maximum on the screen?
What is the answer to this question and how do you come up with it?

Answers

The wavelength of light whose first-order maxima will be 16.4 cm from the central maximum on the screen is approximately 0.0355 μm.

we can use the equation:

d * sin(theta) = m * lambda

where d is the distance between adjacent lines on the diffraction grating, theta is the angle between the incident light and the diffracted light, m is the order of the maximum, and lambda is the wavelength of the light.

First, we need to calculate the value of d, which is given as 335 lines/mm. To convert this to meters, we divide by 1000:

d = 335 lines/mm / 1000 mm/m = 0.335 lines/m

Next, we need to calculate the angle theta. The distance between the central maximum and the first-order maximum is given as 16.4 cm, which is 0.164 m. Since the diffraction grating is 1.55 mm away from the screen, we can assume that the angle theta is small, and we can use the approximation:

sin(theta) ≈ tan(theta) ≈ opposite/adjacent = 0.164 m / 1.55 mm = 0.000106

Now we can plug in the values we have into the equation and solve for lambda:

d * sin(theta) = m * lambda

0.335 lines/m * 0.000106 ≈ lambda

lambda ≈ 0.0355 μm

Therefore, the wavelength of light whose first-order maxima will be 16.4 cm from the central maximum on the screen is approximately 0.0355 μm.

For more such questions on wavelength , Visit:

https://brainly.com/question/10728818

#SPJ11

The wavelength of light whose first-order maxima will be 16.4 cm from the central maximum on the screen is 3150 nm.

To solve this problem, we can use the formula:

d*sinθ = m*λ

where d is the distance between adjacent slits on the diffraction grating (in this case, 1/335 mm), θ is the angle between the incident light and the diffracted light, m is the order of the maximum (in this case, 1), and λ is the wavelength of the light.

We want to find λ when the first-order maximum is 16.4 cm from the central maximum on the screen. We can use the small angle approximation sinθ ≈ θ, and we know that the distance between the diffraction grating and the screen is 1.55 mm. Therefore, we have:

d*θ = m*λ
θ = (16.4 cm - 0 cm)/1.55 mm
θ = 1.056 radians (approximately)

Substituting the values we have:

(1/335 mm)*1.056 = 1*λ
λ = (1/335 mm)*1.056
λ = 3.15 x 10^-6 meters (or 3150 nanometers)

Learn  more about diffraction brainly.com/question/12290582?

#SPJ11

An electron-positron pair is produced by a 2.50 MeV photon. What is the kinetic energy of the positron if the kinetic energy of the electron is 0.739
MeV?
Use the following Joules-to-electron-Volts conversion 1eV = 1.602 × 10-19 J.
The rest mass of an electron is 9.11 Å~10−31 kg

Answers

The total energy of the electron-positron pair produced by a 2.50 MeV photon is 2.50 MeV. Subtracting the electron's kinetic energy of 0.739 MeV gives the positron's kinetic energy of 1.76 MeV. Using the given conversion factor, this corresponds to 2.81 × [tex]10^-^1^3[/tex] J.

What is the kinetic energy of the positron produced by a 2.50 MeV photon?

The total energy of the electron-positron pair produced by a 2.50 MeV photon is given by:

[tex]E_p_a_i_r[/tex] = [tex]E_p_h_o_t_o_n[/tex] = 2.50 MeV

The kinetic energy of the electron is given as:

[tex]K_e_l_e_c_t_r_o_n[/tex] = 0.739 MeV

To find the kinetic energy of the positron, we subtract the kinetic energy of the electron from the total energy of the pair:

[tex]K_p_o_s_i_t_r_o_n[/tex] = [tex]E_p_a_i_r[/tex] - [tex]K_e_l_e_c_t_r_o_n[/tex] = 2.50 MeV - 0.739 MeV = 1.76 MeV

To convert this value to joules, we use the conversion factor:

1 eV = 1.602 × [tex]10^-^1^9[/tex] J

Therefore, the kinetic energy of the positron is:

[tex]K_p_o_s_i_t_r_o_n[/tex] = 1.76 MeV x 1.602 × [tex]10^-^1^9[/tex] J/eV = 2.81 × [tex]10^-^1^3[/tex] J

Learn more about Electron-positron pair

brainly.com/question/13143222

#SPJ11

the xy-plane, how many points on the curve y2 x2=3−xy have horizontal or vertical tangent lines?

Answers

The curve has only two points with horizontal tangent lines, [tex](\sqrt3, 0)[/tex] and [tex](-\sqrt3, 0)[/tex].

To find the points on the curve where the tangent lines are either horizontal or vertical, we need to find the points where the slope of the tangent line is zero or undefined.

First, let's find the derivative of y with respect to x:

[tex]2y \dfrac{dy}{dx} x^2 + 2x y^2 = -y - x \dfrac{dy}{dx}[/tex]

Solving for [tex]\dfrac{dy}{dx}[/tex], we get:

[tex]\dfrac{dy}{dx} = \dfrac{(-2xy^2 - y)}{(2yx - x^2)}[/tex]

The slope is zero when the numerator is zero, which occurs when:

y(-2x y - 1) = 0

This gives us two cases: either y = 0 or -2x y - 1 = 0.

If y = 0, then [tex]x^2 = 3[/tex], so there are two points with a horizontal tangent line:  [tex](\sqrt3, 0)[/tex] and [tex](-\sqrt3, 0)[/tex].

If -2x y - 1 = 0, then [tex]y = \dfrac{(-1) }{(2x)}[/tex]. Substituting into the equation for the curve, we get:

[tex]\dfrac{-1}{4}(x^2) x^2 = 3 + \dfrac{1}{2}[/tex]

Simplifying, we get:

[tex]x^2 = \dfrac{-8}{3}[/tex]

This has no real solutions, so there are no points on the curve with a vertical tangent line.

To know more about tangent line, here

https://brainly.com/question/31617205

#SPJ4

two resistors are wired in series. in another circuit, the same two resistors are wired in parallel. in which circuit is the equivalent resistance greater?

Answers

Answer:

The circuit in series has a greater resistance.

Explanation:

The current is forced to flow throw two resistors instead of just one as it if it were in parallel.

For the shortest and longest lengths of wire tested in this experiment calculate the average power dissipated due to the resistance of the wire.

Answers

Average power dissipation cannot be determined without specific values for the resistance, current, and lengths of wire tested.

What is the average power dissipated due to resistance for the shortest and longest lengths of wire tested in this experiment?

To calculate the average power dissipated due to the resistance of the wire, we need to know the resistance value of the wire and the current flowing through it.

However, you haven't provided any specific values for these parameters or any details about the experiment. Consequently, I cannot give you a specific numerical answer without additional information.

Nonetheless, I can explain the general method for calculating the average power dissipation due to resistance. The power dissipated by a resistor can be determined using Ohm's Law and the formula for power:

P = I^2 * R

Where:

P is the power (in watts)

I is the current (in amperes)

R is the resistance (in ohms)

To calculate the average power dissipation, you would need to have measurements of the current flowing through the wire for different lengths and the corresponding resistance values. By substituting the values of current and resistance into the formula, you can calculate the power dissipated for each length of wire tested.

To find the shortest and longest lengths of wire tested, you would need to refer to the data from your experiment or provide that information if available. Once you have the values of current and resistance for the shortest and longest lengths, you can calculate the average power dissipated using the formula mentioned above.

Remember that power dissipation depends on the resistance and the square of the current. So, as the length of the wire changes, the resistance may vary accordingly, leading to different power dissipation levels.

Learn more about    resistance, current,

brainly.com/question/15126283

#SPJ11

what is the sum of the exterior angle measures, one at each vertex, of a triangle?

Answers

The sum of exterior angle measures of a triangle is always 360 degrees. Each exterior angle is the supplement of the adjacent interior angle,

so their measures sum to 180 degrees. Since a triangle has three vertices, the sum of the exterior angle measures at each vertex is 3 times 180, or 540 degrees. However, the sum of the exterior angle measures is 360 degrees, not 540, because each exterior angle measure is counted three times, once at each vertex. This relationship between interior and exterior angles is important in geometry and can be used to solve various problems involving polygons and angles.

Learn more about  exterior angle  here;

https://brainly.com/question/28033970

#SPJ11

a certain laser emits light of wavelength 688 ✕ 10-9 m. what is the frequency of this light in a vacuum

Answers

The frequency of the light emitted by the laser in a vacuum is approximately 4.36 x 10^14 Hz.

The frequency of the laser's light in a vacuum can be found using the formula f=c/λ, where f is frequency, c is the speed of light in a vacuum, and λ is the wavelength of the light. So, to find the frequency of the laser's light, we can plug in the given values:

f = c/λ
f = (3.00 ✕ 10^8 m/s)/(688 ✕ 10^-9 m)
f = 4.36 ✕ 10^14 Hz

The speed of light in a vacuum is approximately 3.0 x 10^8 m/s. So, the frequency of the light emitted by the laser in a vacuum is approximately 4.36 x 10^14 Hz.

To know more about laser visit:-

https://brainly.com/question/27853311

#SPJ11

(a) Calculate the work (in MJ) necessary to bring a 101 kg object to a height of 992 km above the surface of the Earth.__ MJ (b) Calculate the extra work (in J) needed to launch the object into circular orbit at this height.__J

Answers

(a) The work necessary to bring a 101 kg object to a height of 992 km above the surface of the Earth is 986 MJ. (b) The extra work needed to launch the object into circular orbit at a height of 992 km above the surface of the Earth is 458 MJ.

To bring an object to a height of 992 km above the surface of the Earth, we need to do work against the force of gravity. The work done is given by the formula;

W = mgh

where W is work done, m is mass of the object, g is acceleration due to gravity, and h is the height above the surface of the Earth.

Using the given values, we have;

m = 101 kg

g = 9.81 m/s²

h = 992 km = 992,000 m

W = (101 kg)(9.81 m/s²)(992,000 m) = 9.86 × 10¹¹ J

Converting J to MJ, we get;

W = 986 MJ

Therefore, the work necessary to bring a 101 kg object to a height of 992 km above the surface of the Earth is 986 MJ.

To launch the object into circular orbit at this height, we need to do additional work to overcome the gravitational potential energy and give it the necessary kinetic energy to maintain circular orbit. The extra work done is given by the formula;

W = (1/2)mv² - GMm/r

where W is work done, m is mass of the object, v is velocity of the object in circular orbit, G is gravitational constant, M is the mass of the Earth, and r is the distance between the object and the center of the Earth.

We can find the velocity of the object using the formula:

v = √(GM/r)

where √ is the square root symbol. Substituting the given values, we have;

v = √[(6.67 × 10⁻¹¹ N·m²/kg²)(5.97 × 10²⁴ kg)/(6,371 km + 992 km)] = 7,657 m/s

Substituting the values into the formula for work, we have;

W = (1/2)(101 kg)(7,657 m/s)² - (6.67 × 10⁻¹¹ N·m²/kg²)(5.97 × 10²⁴ kg)(101 kg)/(6,371 km + 992 km)

W = 4.58 × 10¹¹ J

Converting J to the required units, we get;

W = 458 MJ

Therefore, the extra work needed to launch the object into circular orbit at a height of 992 km above the surface of the Earth is 458 MJ.

To know more about circular orbit here

https://brainly.com/question/19131814

#SPJ4

--The given question is incomplete, the complete question is

"(a) Calculate the work (in MJ) necessary to bring a 101 kg object to a height of 992 km above the surface of the Earth.__ MJ (b) Calculate the extra work (in MJ) needed to launch the object into circular orbit at this height of 992 km above the surface of the Earth .__MJ."--

if a spring requires 20 n to be compressed a distance of 10 centimeters, what is the spring constant in n/m?

Answers

The spring constant of the spring is 200 N/m.

What is the spring constant?

The spring constant (k) represents the stiffness or rigidity of a spring and is defined as the force required to stretch or compress the spring by a unit distance. It is given by the formula:

k = F / x

where k is the spring constant, F is the applied force, and x is the displacement.

In this case, the spring requires a force of 20 N to be compressed a distance of 10 centimeters (0.1 meters). Plugging these values into the formula:

k = 20 N / 0.1 m

= 200 N/m

Therefore, the spring constant of the spring is 200 N/m. This means that for every meter of compression or extension, the spring exerts a force of 200 Newtons.

To know more about spring constant, refer here:

https://brainly.com/question/29975736#

#SPJ4

a tank contains 23 kg of dry air and 0.3 kg of water vapor at 35 0c and 88 kpa total pressure.

Answers

The tank contains 23 kg of dry air and 0.3 kg of water vapor at 35°C and 88 kPa, with a partial pressure of dry air of 86.3 kPa and a volume of 23.9 m³.

How to calculate air composition?

we can calculate the volume of the tank and the partial pressure of the dry air by using the ideal gas law:

First, we need to calculate the mole fraction of water vapor in the tank:

n_total = (23 kg + 0.3 kg) / (28.97 kg/kmol) = 0.802 kmoln_water_vapor = 0.3 kg / (18.015 kg/kmol) = 0.0167 kmolx_water_vapor = n_water_vapor / n_total = 0.0208

Next, we can calculate the partial pressure of the dry air:

P_total = 88 kPa

P_dry_air = (1 - x_water_vapor) * P_total = 86.3 kPa

Using the ideal gas law, we can calculate the volume of the tank:

V = (n_total * R * T) / P_total

where R is the universal gas constant (8.314 J/(mol*K)), and T is the temperature in Kelvin:

T = 35°C + 273.15 = 308.15 K

V = (0.802 kmol * 8.314 J/(mol*K) * 308.15 K) / 88 kPa = 23.9³

Therefore, the tank contains 23 kg of dry air and 0.3 kg of water vapor at a total pressure of 88 kPa and a temperature of 35°C, with a partial pressure of dry air of 86.3 kPa, and a volume of 23.9 m³.

Learn more about pressure

brainly.com/question/12971272

#SPJ11

A simple pendulum on earth has a period of 6.0 s. What is the approximate period of this pendulum on the moon where the acceleration due to gravity is roughly 1/6 that of earth? a. 1.0s b. 2.4 s c. 36 s d. 15 s
e. 6.05s

Answers

The approximate period of this pendulum on the moon where the acceleration due to gravity is roughly 1/6 that of earth is 15s. The correct option is -d. 15 s.

On Earth, we know that T=6.0 s. Let's assume the length of the pendulum remains constant.
Now, on the moon, the acceleration due to gravity is approximately 1/6 that of Earth's, so g'=g/6.

Using the same equation as before, we can find the new period T' on the moon:
T' = 2π√(L/g') = 2π√(L/(g/6)) = 2π√(6L/g)

Substituting in T=6.0 s, we have:
T' = 2π√(6L/g) = 2π√(6T^2g/L) = 2π√(6(6.0 s)^2(9.81 m/s^2)/L)

Since we are looking for an approximate answer, we can estimate L to be roughly the same on the moon as it is on Earth. Therefore, we can simplify the equation to:

T' ≈ 2π√(6(6.0 s)^2(9.81 m/s^2)/L) ≈ 2π√(216) ≈ 29.1 s
Therefore, the correct option is -d. 15 s.

For more question on acceleration

https://brainly.com/question/460763

#SPJ11

The period of a pendulum is the time it takes for the pendulum to complete one full swing. In this case, we know that a simple pendulum on earth has a period of 6.0 s. However, on the moon, the acceleration due to gravity is roughly 1/6 that of earth.Therefore, the correct answer is (b) 2.4 s.

This means that the force acting on the pendulum is much weaker on the moon than on earth. As a result, the pendulum will swing slower on the moon than on earth. To calculate the approximate period of the pendulum on the moon, we can use the formula T=2π√(l/g), where T is the period, l is the length of the pendulum, and g is the acceleration due to gravity. Plugging in the appropriate values, we get T=2π√(l/(1/6g)). Simplifying this equation, we can see that the period on the moon will be approximately 2.4 s. Therefore, the correct answer is (b) 2.4 s.

To learn more about simple pendulum click here: brainly.com/question/29183311  
#SPJ11

An LRC series circuit has R = 15.0 ?, L = 25.0 mH, and C = 30.0 ?F. The circuit is connected to a120-V (rms) ac source with frequency 200 Hz.(a) What is the impedance of the circuit?(b) What is the rms current in the circuit?(c) What is the rms voltage across the resistor?(d) What is the rms voltage across the inductor?(e) What is the rms voltage across the capacitor?

Answers

The impedance of the LRC circuit is approximately 15.81 Ω. The rms current is around 7.59 A. The rms voltage across the resistor is about 113.85 V, the inductor is around 238.49 V, and the capacitor is approximately 201.26 V.

(a) The impedance (Z) of an LRC series circuit can be calculated using the formula Z = √[tex](R^2[/tex] + (XL - [tex]XC)^2[/tex]), where R is the resistance, XL is the inductive reactance, and XC is the capacitive reactance.

For this circuit, R = 15.0 Ω, L = 25.0 mH (or 0.025 H), C = 30.0 μF (or 0.000030 F), and the frequency is 200 Hz.

First, we calculate the inductive reactance: XL = 2πfL = 2π(200)(0.025) = 31.416 Ω.

Next, we calculate the capacitive reactance: XC = 1/(2πfC) = 1/(2π(200)(0.000030)) = 26.525 Ω.

Now, we can substitute the values into the impedance formula:

Z = √(15.0^2 + (31.416 - 26.[tex]525)^2[/tex]) = √(225 + 24.891) = √249.891 ≈ 15.81 Ω.

Therefore, the impedance of the circuit is approximately 15.81 Ω.

(b) The rms current (I) in the circuit can be calculated using Ohm's Law: I = V/Z, where V is the rms voltage and Z is the impedance.

Given that the rms voltage (V) is 120 V, we substitute the values into the formula:

I = 120/15.81 ≈ 7.59 A.

Therefore, the rms current in the circuit is approximately 7.59 A.

(c) The rms voltage across the resistor (VR) is equal to the product of the rms current and resistance: VR = IR.

Substituting the values, VR = (7.59)(15.0) = 113.85 V.

Therefore, the rms voltage across the resistor is approximately 113.85 V.

(d) The rms voltage across the inductor (VL) can be calculated using the formula VL = IXL, where I is the rms current and XL is the inductive reactance.

Substituting the values, VL = (7.59)(31.416) ≈ 238.49 V.

Therefore, the rms voltage across the inductor is approximately 238.49 V.

(e) The rms voltage across the capacitor (VC) can be calculated using the formula VC = IXC, where I is the rms current and XC is the capacitive reactance.

Substituting the values, VC = (7.59)(26.525) ≈ 201.26 V.

Therefore, the rms voltage across the capacitor is approximately 201.26 V.

For more such questions on circuit, click on:

https://brainly.com/question/2969220

#SPJ11

Impedance (Z) 234.44 Ω

rms current in the circuit 0.512 A

rms voltage across the resistor 7.68 V

rms voltage across the inductor 16.09 V

RMS Voltage across the Capacitor 426.47 V

How to solve for impedance

(a) Impedance (Z)

Z = √[(R^2) + ((ωL - 1/(ωC))^2)]

= √[(15^2) + ((2π2000.025 - 1/(2π20030E-6))^2)]

= √[(225) + ((31.42 - 265.26)^2)]

= √[(225) + (-233.84^2)]

= √[225 + 54737]

= √54962

= 234.44 Ω

(b) RMS Current (I)

I = V/Z

= 120 / 234.44

= 0.512 A

(c) RMS Voltage across the Resistor (V_R)

V_R = I * R

= 0.512 * 15

= 7.68 V

(d) RMS Voltage across the Inductor (V_L)

V_L = I * ωL

= 0.512 * 2π * 200 * 0.025

= 16.09 V

(e) RMS Voltage across the Capacitor (V_C)

V_C = I / ωC

= 0.512 / (2π * 200 * 30E-6)

= 426.47 V

Read more on Impedance  here:https://brainly.com/question/13134405

#SPJ4

18) a thallium sample has an activity of 2 x 108 bq today, thallium has a half-life of 3.7 years, what was the activity of the sample 100 years ago (in the past)?

Answers

The activity of the sample 100 years ago (in the past) is approximately [tex]8.7 * 10^{6} bq[/tex] .

To solve this problem, we can use the formula for radioactive decay:

A = A₀ e^(-λt)

Where:
A₀ is the initial activity
A is the current activity
λ is the decay constant
t is the time elapsed

We can rearrange this formula to solve for the initial activity A₀:

A₀ = A / e^(-λt)

First, we need to find the decay constant λ, which is related to the half-life t½ by the formula:

t½ = ln(2) / λ

Rearranging this formula gives us:

λ = ln(2) / t½

Substituting the values given in the problem, we have:

t½ = 3.7 years
λ = ln(2) / 3.7 years ≈ 0.187 [tex]years^{-1}[/tex]

Next, we need to find the time elapsed t between the present day and 100 years ago. Since the half-life of thallium is 3.7 years, we can divide 100 years by 3.7 years to get:

t = 100 years / 3.7 years ≈ 27.0

Now we can substitute the values we have found into the formula for A₀:

A₀ = A / e^(-λt)
A₀ = [tex]2*10^{8}[/tex] bq / [tex]e^{(-0.187 years^{-1}*27.0 years) }[/tex]
A₀ ≈ [tex]8.7 * 10^{6} bq[/tex]

Therefore, the activity of the thallium sample 100 years ago (in the past) was approximately [tex]8.7 * 10^{6} bq[/tex].

Know more about   half-life   here:

https://brainly.com/question/1160651

#SPJ11

Two identical spaceships are moving through space both with speed v0. both spaceships experience a net force of magnitude f0 over the same time interval. for spaceship 1, the net force acts in the same direction as the spaceship is moving; for spaceship 2, the net force is directed opposite to the spaceship’s motion, causing spaceship 2 to slow down but not stop. for which spaceship, if either, does the kinetic energy change by a greater magnitude, and why?

Answers

The change in kinetic energy will be greater for spaceship 1 because the force is acting in the same direction as its motion, leading to a positive change in kinetic energy.

The force is acting in the opposite direction of its motion, leading to a negative change in kinetic energy.

The kinetic energy of an object is given by the formula

KE = (1/2)mv²

where

m is the mass of the object and

v is its velocity.

The change in kinetic energy is given by

ΔKE = KEf - KEi

where

KEf is the final kinetic energy and

KEi is the initial kinetic energy.

For both spaceships, the net force is the same magnitude, so the acceleration experienced by each spaceship will also be the same (F=ma).

However, the direction of the net force is different for each spaceship.

For spaceship 1, the net force is in the same direction as the spaceship's motion, so the force does positive work on the spaceship, increasing its kinetic energy.

The change in kinetic energy for spaceship 1 is

ΔKE1 = (1/2)m(v0 + at)² - (1/2)mv0²

         = (1/2)ma²t² + matv0.

For spaceship 2, the net force is in the opposite direction of the spaceship's motion, so the force does negative work on the spaceship, decreasing its kinetic energy.

The change in kinetic energy for spaceship 2 is

ΔKE2 = (1/2)m(v0 - at)² - (1/2)mv0²

          = (1/2)ma²t² - matv0.

Comparing the two equations for ΔKE, we can see that they differ only in the sign of the second term.

Since the magnitude of the acceleration is the same for both spaceships, the magnitude of the second term is the same for both spaceships.

However, the sign of the second term is opposite for each spaceship.

Therefore, the change in kinetic energy will be greater for spaceship 1 because the force is acting in the same direction as its motion, leading to a positive change in kinetic energy.

For spaceship 2, the force is acting in the opposite direction of its motion, leading to a negative change in kinetic energy.

To know more about kinetic energy refer here

brainly.com/question/26472013#

#SPJ11

compute the flux integral where f is the vector field f = x^3 i y^3 j z^3 k

Answers

The flux integral of the vector field F = x³ i + y³ j + z³ k through a closed surface S that encloses a cube of side length a centered at the origin is 4πa³.

The flux integral of a vector field F through a closed surface S is given by:

Φ = ∫∫_S F · dA

where dA is the infinitesimal area element of the surface S, and the dot product · represents the scalar product.

To compute the flux integral of the vector field F = x³ i + y³ j + z³ k through a closed surface S, we can use the Divergence Theorem, which states that the flux integral of a vector field through a closed surface is equal to the volume integral of the divergence of the vector field over the enclosed volume:

Φ = ∫∫_S F · dA = ∫∫∫_V ∇ · F dV

where ∇ · F is the divergence of the vector field F, and dV is the infinitesimal volume element of the enclosed volume V.

The divergence of the vector field F can be computed as follows:

∇ · F = ∂(x³)/∂x + ∂(y³)/∂y + ∂(z³)/∂z

= 3x² + 3y² + 3z²

Substituting this into the Divergence Theorem, we get:

Φ = ∫∫_S F · dA = ∫∫∫_V (3x² + 3y² + 3z²) dV

The enclosed volume V can be any volume that is enclosed by the closed surface S. For simplicity, let us assume that the surface S encloses a cube of side length a centered at the origin. Then, we can express the volume integral as:

∫∫∫_V (3x² + 3y² + 3z²) dV = 3∫_0ᵃ ∫_0ᵃ ∫_0ᵃ (x² + y² + z²) dxdydz

Using spherical coordinates, we can express the integrand in terms of the radial distance r and the solid angle Ω as:

x²+ y² + z² = r² + r^2sin²θsin²φ + r²cos²θ

= r²(sin²θcos²φ + sin²θsin²φ + cos²θ)

= r²

where θ is the polar angle and φ is the azimuthal angle.

The volume integral then becomes:

∫_0ᵃ ∫_[tex]0^Pi[/tex] ∫_0^{2π} r² sinθ dφ dθ dr

= 4π/3 a³

Substituting this back into the expression for Φ, we get:

Φ = 3∫_0ᵃ ∫_0ᵃ ∫_0ᵃ (x² + y² + z²) dxdydz

= 3(4π/3 a³)

= 4πa^3

Therefore, the flux integral of the vector field F = x³ i + y³ j + z³ k through a closed surface S that encloses a cube of side length a centered at the origin is 4πa³.

To know more about  flux integral

https://brainly.com/question/31744329

#SPJ4

What capacitor in series with a 100 ohm resistor and a 22 mH inductor will give a resonance frequency of 1030 Hz ?

Answers

So, a capacitor of approximately 2.354 nF in series with a 100 ohm resistor and a 22 mH inductor will give a resonance frequency of 1030 Hz.

To find the capacitor needed to achieve a resonance frequency of 1030 Hz in a circuit with a 100 ohm resistor and a 22 mH inductor, we can use the formula for calculating resonance frequency in an LC circuit:

f = 1 / (2π √(LC))

where f is the resonance frequency in hertz, L is the inductance in henries, and C is the capacitance in farads.

We know the values of the resistor and inductor in the circuit, so we can rearrange the formula to solve for C:

C = 1 / (4π^2 f^2 L)

Plugging in the given values, we get:

C = 1 / (4π^2 x 1030^2 x 22 x 10^-3)

C ≈ 150 x 10^-9 farads

Therefore, a capacitor of approximately 150 nanofarads in series with the 100 ohm resistor and 22 mH inductor will give a resonance frequency of 1030 Hz.

I hope this helps! Let me know if you have any further questions.
To find the value of the capacitor that will create a resonance frequency of 1030 Hz in series with a 100 ohm resistor and a 22 mH inductor, you can use the formula for resonance frequency in an RLC circuit:

f = 1 / (2 * π * √(L * C))

where f is the resonance frequency, L is the inductance, and C is the capacitance. We are given f = 1030 Hz and L = 22 mH (0.022 H). We need to find C.

Rearranging the formula to solve for C:

C = 1 / (4 * π^2 * L * f^2)

Plugging in the given values:

C = 1 / (4 * π^2 * 0.022 * (1030^2))
C ≈ 2.354 × 10^-9 F

To know more about resonance frequency visit:-

https://brainly.com/question/13040523

#SPJ11

A sample of n = 25 is taken and the sample mean is x = 87 and a sample standard deviation of s= 20. Construct a 95% confidence interval for the true mean, u. A) (79.16, 94.84) B) (78.74, 95.26) C) (83.00, 91.00) D) (80.16, 93.84

Answers

Confidence Interval is : (78.74,95.26)

To construct a 95% confidence interval for the true mean, u, we use the formula:

CI = x ± (tα/2)(s/√n)

where x is the sample mean, s is the sample standard deviation, n is the sample size, and tα/2 is the critical value from the t-distribution with n-1 degrees of freedom and a significance level of α/2 (0.025 for a 95% confidence interval).

A confidence interval is a range of values that is likely to contain the true value of a population parameter with a specified level of confidence. In statistics, it is common to use a sample of data to estimate the value of a population parameter, such as the mean or the proportion

Plugging in the values from the problem, we get:

CI = 87 ± (2.064)(20/√25)
  = 87 ± 8.256
  = (78.744, 95.256)

Therefore, the answer is :

B) (78.74, 95.26).

To learn more about Standard Deviation, visit :

https://brainly.com/question/23907081

#SPJ11

the instant the switch is closed what is the voltage across the resistor, in volts? rl switch circuit select one: a. 0 b. 20 c. 40 d. 2

Answers

The instant the switch is closed what is the voltage across the resistor, in volts. The correct answer is: a. 0

The voltage across the resistor in an RL switch circuit the instant the switch is closed can be determined using Ohm's Law and considering the initial conditions of the circuit. Here are the provided options:

a. 0
b. 20
c. 40
d. 2

At the instant the switch is closed, the inductor in an RL circuit initially behaves like an open circuit. This is because it takes some time for the current to build up in the inductor, and it opposes any sudden change in current. As a result, the initial current through the circuit is 0A.

Using Ohm's Law (V = IR), where V is the voltage across the resistor, I is the current through the resistor, and R is the resistance, we can calculate the initial voltage across the resistor. Since the current I is 0A at this instant, the voltage across the resistor is:

V = 0A * R = 0V

Learn more about voltage here:-

https://brainly.com/question/13396105

#SPJ11

An airtight box, having a lid of area 80cm2, is partially evacuated (i.e., has low pressure than outside atmosphere). Atmosphere pressure is 1.01×10 5
Pa. A force of 600N is required to pull the lid off the box. What was the pressure in the box?

Answers

The pressure in the box was 100 Pa.

The force required to pull the lid off the box is equal to the pressure difference between the inside and outside of the box multiplied by the area of the lid:

F = (P_outside - P_inside) * A_lid

where F is the force required to lift the lid, A_lid is the area of the lid, and P_outside and P_inside are the pressures outside and inside the box, respectively.

Solving for P_inside, we get:

P_inside = P_outside - F/A_lid

Substituting the given values, we get:

P_inside = 1.01×10^5 Pa - 600 N / (80 cm^2 * (1 m/100 cm)^2)

P_inside = 1.01×10^5 Pa - 750 Pa

P_inside = 100 Pa

Therefore, the pressure inside the box was 100 Pa.

To know more about pressure, click here:

https://brainly.com/question/30673967

#SPJ11

Light travels at a velocity of c=3.0×108 m/s in a vacuum. Green light has a wavelength of λ=531 nm.
a) Input an expression for the frequency, v, of green light.

Answers

The expression for the frequency of green light is:

v = (3.0 × [tex]10^8[/tex]) / (531 × [tex]10^{-9[/tex]) Hz

The velocity of light (c) in a vacuum is related to the wavelength (λ) and frequency (v) of light by the equation:

c = λ * v

To find the expression for the frequency (v) of green light, we can rearrange the equation as follows:

v = c / λ

Substituting the given values:

v = (3.0 × [tex]10^8[/tex] m/s) / (531 nm)

Note that we need to convert the wavelength from nanometers (nm) to meters (m) for the units to match:

1 nm = 1 × [tex]10^{-9}[/tex] m

v = (3.0 ×[tex]10^8[/tex] m/s) / (531 × 10^-9 m)

Simplifying:

v = (3.0 ×[tex]10^8[/tex]) / (531 × [tex]10^{-9}[/tex]) Hz

Therefore, the expression for the frequency of green light is:

v = (3.0 × [tex]10^8[/tex]) / (531 × [tex]10^{-9[/tex]) Hz

To know more about frequency refer here

https://brainly.com/question/14316711#

#SPJ11

(a) An 8-bit A/D converter has an input range of 0 to 15 V and an output in simple binary. Find the output (in decimal) if the input is (a) 6.42 V (6) -6.42 V (C) 12 V (d) OV (b) Convert Hexa decimal Number B602 to a decimal number and Binary. Convert decimal number 227 to binary number.

Answers

The sequence of remainders in reverse order is 11100011. Therefore, the binary representation of 227 is 11100011.

(a) To find the output of an 8-bit A/D converter, we need to determine the resolution of the converter. The resolution is the smallest change in the input voltage that can be detected by the converter. For an 8-bit converter, the resolution is calculated as follows:

Resolution = Input Range / ([tex]2^8[/tex] - 1) = 15 V / 255 = 0.0588 V

Using this resolution, we can calculate the output in decimal for each input voltage as follows:

(a) Input voltage = 6.42 V

Output in decimal = 6.42 / 0.0588 = 109

(c) Input voltage = -6.42 V

Output in decimal = (-6.42 + 15) / 0.0588 = 170

(d) Input voltage = 12 V

Output in decimal = 12 / 0.0588 = 204

(b) To convert the hexadecimal number B602 to decimal, we need to multiply each digit by its corresponding power of 16 and add the results. The calculation is as follows:

[tex]$B602 = (11 \times 16^3) + (6 \times 16^2) + (0 \times 16^1) + (2 \times 16^0) = 46,082$[/tex]

To convert the decimal number 227 to binary, we can use the division-by-2 method. We divide the decimal number by 2 and record the remainder (either 0 or 1). We continue the process with the quotient until we reach 0. The binary number is the sequence of remainders in reverse order. The calculation is as follows:

227 / 2 = 113 remainder 1

113 / 2 = 56 remainder 1

56 / 2 = 28 remainder 0

28 / 2 = 14 remainder 0

14 / 2 = 7 remainder 0

7 / 2 = 3 remainder 1

3 / 2 = 1 remainder 1

1 / 2 = 0 remainder 1

To learn more about binary

https://brainly.com/question/31413821

#SPJ4

(a) The output in decimal for an 8-bit A/D converter with an input range of 0 to 15 V is as follows:

(a) For an input of 6.42 V, the output in decimal would be 104.

(b) For an input of -6.42 V, the output in decimal would be 0.

(c) For an input of 12 V, the output in decimal would be 195.

(d) For an input of 0 V, the output in decimal would be 0.

Determine the output in decimal?

In an 8-bit A/D converter, the input range of 0 to 15 V is divided into 256 equal steps. Each step corresponds to a certain decimal value. To find the output in decimal, we need to determine which step the input voltage falls into and assign the corresponding decimal value.

(a) For an input of 6.42 V, we calculate the fraction of the input voltage in relation to the total range: (6.42 V / 15 V) ≈ 0.428. Multiplying this fraction by the total number of steps (256), we find that the input falls into approximately step 109. Therefore, the output in decimal is 109.

(b) For an input of -6.42 V, since the input voltage is negative and below the defined range, the output is 0.

(c) For an input of 12 V, the fraction of the input voltage is (12 V / 15 V) = 0.8. Multiplying this fraction by 256, we find that the input falls into step 204. Therefore, the output in decimal is 204.

(d) For an input of 0 V, as it is the lower limit of the input range, the output is 0.

(b) Converting the hexadecimal number B602 to a decimal number yields 46626. To convert it to binary, we can break down each hexadecimal digit into its binary representation: B = 1011, 6 = 0110, 0 = 0000, and 2 = 0010.

Combining these binary representations, the binary equivalent of B602 is 1011001100000010.

(c) Converting the decimal number 227 to a binary number, we can use the method of successive division by 2.

Dividing 227 by 2 repeatedly, we get the remainders: 1, 1, 0, 0, 0, 1, and 1. Reading these remainders in reverse order, the binary equivalent of 227 is 11100011.

To know more about decimal, refer here:

https://brainly.com/question/30958821#

#SPJ4

on its highest power setting, a microwave oven can increase the temperature of 0.425 kg of spaghetti by 45.0°c in 120 s.

Answers

In order to determine the power of the microwave oven, we can use the equation such as Power = Energy / Time and the energy absorbed by the spaghetti can be calculated using the equation such as Energy = mass * specific heat capacity * temperature change.

Given:

Mass of spaghetti (m) = 0.425 kg.

Temperature change (ΔT) = 45.0°C.

Time (t) = 120 s.

First, we need to calculate the energy absorbed by the spaghetti by using Energy = mass * specific heat capacity * temperature change.

The specific heat capacity of spaghetti may vary, but for approximation, we can assume it to be close to the specific heat capacity of water, which is approximately 4186 J/kg°C.

Energy = 0.425 kg * 4186 J/kg°C * 45.0°C.

Energy = 84913.5 J.

Now, we can calculate the power of the microwave oven by Power = Energy / Time.

Power = 84913.5 J / 120 s.

Power ≈ 707.6 W.

Therefore, on its highest power setting, the microwave oven has a power of approximately 707.6 watts.

Read more about Microwave ovens.

https://brainly.com/question/13623943

#SPJ11

determine the velocity of the 60kg block a, if the two blocks are released from rest, and the 40kg block b moves 2m up the incline.

Answers

In order to determine the velocity of block A, we need to analyze the conservation of mechanical energy in the system. Let's assume that the incline is frictionless and neglect any potential energy losses due to air resistance.

Mass of block A (m₁) = 60 kg.

Mass of block B (m₂) = 40 kg.

Distance moved by block B up the incline (d) = 2 m.

First, let's calculate the potential energy gained by block B as it moves up the incline:

Potential energy gained by block B = mass * gravity * height.

= m₂ * g * d.

Next, let's calculate the potential energy lost by block A as it moves down the incline:

Potential energy lost by block A = mass * gravity * height.

= m₁ * g * d.

Since the two blocks are connected by a rope, the potential energy lost by block A is transferred to block B as kinetic energy.

Therefore, we can equate the potential energy lost by block A to the potential energy gained by block B:

m₁ * g * d = m₂ * g * d.

Simplifying the equation by canceling out the common terms (g and d):

m₁ = m₂.

Since the masses are equal, the velocity of block A will be the same as the velocity of block B.

Therefore, the velocity of block A will be equal to the velocity of block B when block B reaches a height of 2 m up the incline.

Read more about Velocity.

https://brainly.com/question/19979064

#SPJ11

. A metal-silicon junction is biased so that the potential drop Ao, in the Si is 0.50 V. The doping is No = 4.0x1016 cm-?. Calculate the depletion-layer width Wn. AD EC EF Ev wn Wn = cm.

Answers

The depletion-layer width Wn in a metal-silicon junction with potential drop Ao of 0.50 V and doping No of 4.0x10^16 cm^-3 is approximately 1.30x10^-6 cm.

To calculate the depletion-layer width (Wn) in a metal-silicon junction, we use the formula:
Wn = √(2 * ε * Ao / q * No)
where ε is the permittivity of silicon, Ao is the potential drop, q is the charge of an electron, and No is the doping concentration.
For silicon, the permittivity (ε) is approximately 1.04x10^-12 F/cm, and the charge of an electron (q) is 1.6x10^-19 C.
Now, we can plug in the values and solve for Wn:
Wn = √(2 * 1.04x10^-12 F/cm * 0.50 V / (1.6x10^-19 C * 4.0x10^16 cm^-3))
Wn ≈ 1.30x10^-6 cm
Therefore, the depletion-layer width Wn is approximately 1.30x10^-6 cm.

Learn more about doping here:

https://brainly.com/question/27892005

#SPJ11

Other Questions
Why is it difficult for political parties to be completely unified with all its members? Find the interval in which the function is positive.f(x)=x-7x + 101. (-0, 2)II. (2,5)III. (5,00)O I, IIO I, IIIO II, IIIO II only Review the following video with author Eric Foner on the Sand Creek Massacre. Match the following significant events of the Civil War in Indian territory to their correct description. How do you get to know someone new? Check any that apply.OI talk to the person.O I ask someone else about the person.OI watch how the person acts.OI look up the person online. Array Basics pls help What is the slope of line m? please help Why does Sierra feel at home in Club Kalfour? (p. 89) shadowshapers A mathematics question paper has certain number of questions and each question isassigned some random maximum marks. Mr. Myers wants to edit the marks assignedto the questions such that:1. All questions in the paper should have distinct maximum marks.2. The total marks of all the questions should be as low as possible.Mr. Myers wants to achieve this by making minimal changes in the original format,assigning the question at least as much marks as it originally had. Find the minimumtotal marks that he can set the paper for.Input Specification: What was the fundamental flaw in chadwicks thinking about the spread of disease throughout london? Which BCBS program allows participating members to temporarily access health care from participating providers while away from their home service area for at least 90 days? Use the following information to answer the question. The economic impact of an industry, such as sport fishing, can be measured by the retail sales it generates. In 2006, the economic impact of great lakes fishing in states bordering the great lakes had a mean of $318 and a standard deviation of $83.5. Note that all dollar amounts are in millions of dollars. Assume the distribution of retail sales is unimodal and symmetric. (Source: National Oceanic and Atmospheric Administration). For what percentage of great lakes states would you expect the economic impact from fishing to be between $234.5 and $401.5 (in millions of dollars)? ( Hint use the empirical rule) The process of identifying the presence of something dental term a patient with urolithiasis is more likely to In our Solar System, the inner planets are rocky because Choose one: A. warm temperatures in the inner disk caused the inner planetesimals to be formed of mostly rocky material. B. the original cloud had more rocky material near the center. C. the hydrogen and helium atoms were too low mass to remain in the inner disk. D. the inner disk filled a smaller volume, making it denser. What is a difference between positive energy and negative energy? Steve Matthews, CFA, is a principal at Carlson Brothers, a leading regional investment bank specializing in initial public offerings of small to mid-sized biotech firms. Just before many of the IPOs are offered to the general public, Matthews arranges for 10% of the shares to be distributed to management of the firm going public. This action is a violation of the Standard concerning: Briefly, describe the distribution in context. Recall, categorical variables are summarized by counts and/or percents In north america, three new and very different empires had arisen in the late seventeenth century:____. purple flower plant only produce purple flowers genotype how does Terry Tempest Williams challenge the representation of polar bears that we usually get in the media these days?