After landing on an unfamiliar planet, a space explorer constructs a simple pendulum of length 51.0 cm
. The explorer finds that the pendulum completes 110 full swing cycles in a time of 133 s
.
Part A
What is the magnitude of the gravitational acceleration on this planet?
Express your answer in meters per second per second.

Answers

Answer 1

The period of a simple pendulum is given by the formula:

T = 2π√(L/g)

where T is the period of the pendulum, L is the length of the pendulum, and g is the acceleration due to gravity.

We can rearrange this formula to solve for g:

g = (4π²L)/T²

Plugging in the given values:

L = 51.0 cm = 0.510 m

T = 133 s / 110 = 1.209 s

(Note that we divide the total time by the number of cycles to get the time for one cycle.)

So,

g = (4π² × 0.510 m) / (1.209 s)²

= 9.57 m/s²

Therefore, the magnitude of the gravitational acceleration on this planet is approximately 9.57 m/s².

*IG:whis.sama_ent*

Answer 2

Answer:  7.68 m/s²

Explanation: The period of a simple pendulum is given by the formula:

T = 2π√(L/g)

where T is the period, L is the length of the pendulum, and g is the gravitational acceleration.

In this problem, the pendulum completes 110 full swing cycles in a time of 133 s, which means that the period of the pendulum is:

T = 133 s / 110 = 1.209 s

Substituting this into the formula above and solving for g, we get:

g = (4π²L) / T² = (4π²)(0.51 m) / (1.209 s)² ≈ 7.68 m/s²

Therefore, the magnitude of the gravitational acceleration on this planet is approximately 7.68 m/s².


Related Questions

2. A soil was found to have the following water retention characteristics: Water content at -10 kPa (field capacity) = 0.15 kg kg-1; water content at -1500 kPa (wilting point) = 0.06 kg kg-1. The bulk density was found to be 1250 kg m-3. Assume the density of water to be 1000 kg m-3. 2.1 Calculate the plant available water capacity (PAWC), expressing your results in depth units. [2] 2.2 The crop growing in this field has a rooting depth of 40 cm. Calculate the plant available water (PAW) for this crop? [1] 2.3 A farmer irrigated his soil to field capacity then allowed it to dry out so that the PAW was 65% of its original value before he reapplied irrigation. Calculate the volume of water (per hectare of land) that the farmer must apply to raise the soil water content from the depletion level back to field capacity for the rooting depth of the crop.[3

Answers

Answer:

Given:

Water content at field capacity = 0.15 kg kg-1

Water content at wilting point = 0.06 kg kg-1

PAWC = Water content at field capacity - Water content at wilting point

PAWC = 0.15 kg kg-1 - 0.06 kg kg-1

PAWC = 0.09 kg kg-1

To convert kg kg-1 to depth units, we need to multiply by the bulk density of the soil, and divide by the density of water.

Bulk density of soil = 1250 kg m-3

Density of water = 1000 kg m-3

PAWC in depth units = (PAWC * Bulk density of soil) / Density of water

PAWC in depth units = (0.09 kg kg-1 * 1250 kg m-3) / 1000 kg m-3

PAWC in depth units = 0.1125 m

So, the Plant Available Water Capacity (PAWC) is 0.1125 m or 11.25 cm.

2.2 Plant Available Water (PAW) for the crop with rooting depth of 40 cm can be calculated as:

PAW = PAWC * Rooting depth

PAW = 0.1125 m * 0.40 m

PAW = 0.045 m or 4.5 cm

So, the Plant Available Water (PAW) for the crop is 0.045 m or 4.5 cm.

2.3 To raise the soil water content from the depletion level back to field capacity for the rooting depth of the crop, the farmer needs to apply water equivalent to the difference between PAW at depletion level and PAWC, per hectare of land.

Given:

PAW at depletion level = 65% of PAWC = 0.65 * 0.1125 m = 0.073125 m

PAWC = 0.1125 m

Volume of water to be applied = (PAWC - PAW at depletion level) * Area of land

Let's assume the area of land is 1 hectare, which is equivalent to 10,000 m^2.

Volume of water to be applied = (0.1125 m - 0.073125 m) * 10,000 m^2

Volume of water to be applied = 0.039375 m * 10,000 m^2

Volume of water to be applied = 393.75 m^3

So, the farmer must apply 393.75 m^3 of water per hectare of land to raise the soil water content from the depletion level back to field capacity for the rooting depth of the crop.

Please help me in this exercise.

Answers

A. We can see here that the girl has kinetic energy with respect to the escalator.

B. The kinetic energy doesn't depend on the chosen reference.

What is kinetic energy?

Kinetic energy is the energy that an object possesses due to its motion. Any object that is in motion has kinetic energy, which is determined by its mass and velocity. The formula for kinetic energy is KE=1/2mv^2, where KE is the kinetic energy, m is the mass of the object, and v is the velocity or speed of the object.

Kinetic energy is a scalar quantity, meaning it has only magnitude and no direction. The unit of kinetic energy is Joules (J) in the International System of Units (SI).

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32.
Passive sonar uses underwater microphones called hydrophones.
True
False

Answers

Answer:

True

Explanation:

"Passive sonar uses specialized transducers called hydrophones (or underwater microphones) to listen to sounds in the ocean. These hydrophones convert received sounds into electrical signals that are then sent to a computer for a sonar operator to look at, listen to, and analyze."

25.
The sensory hair cells of the semicircular canals convert vibrations into electrical impulses.
O True
False

Answers

It is a true statement that the sensory hair cells of the semicircular canals convert vibrations into electrical impulses.

How does sensory hair cells of the semicircular canals convert vibrations?

The sensory hair cells located in the semicircular canals of the inner ear are responsible for converting mechanical vibrations caused by head movements into electrical impulses that are then transmitted to the brain for processing. This process helps the body maintain balance and spatial orientation.

The semicircular canals are part of the vestibular system in the inner ear, which plays a crucial role in detecting changes in head position and movement. The sensory hair cells in the semicircular canals are embedded in a gelatinous structure called the cupula, which moves in response to the flow of endolymphatic fluid inside the canals.

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11. A car, starting from rest, accelerates in a straight-line path at a constant rate of 2,5 m/s2 . How far will the car travel in 10 seconds?
(a) 180 m
(b) 30 m
(c) 125 m
(d) 4.8 m​

Answers

Answer: 125 m

Explanation:

[tex]V_{i}[/tex] = 0

[tex]V_{f}[/tex] = no se conoce

a = 2,5 [tex]\frac{m}{s^{2} }[/tex]

t = 10 s.

d= x no los piden

Formula:

[tex]d=V_{i} .t + \frac{a.t^{2} }{2}[/tex]

Remplazamos:

[tex]d=0.(10) + \frac{2,5.10^{2} }{2}[/tex]  =  0 + [tex]\frac{2,5.(100)}{2}[/tex]  = 2,5.(50) = 125 m

v=√gr tan 31.0 grados

Answers

The banking angle is the angle that the surface makes with the horizontal, or the angle of inclination.

v = √rg tanθ

tanθ=v²/rg  

The relation gives the angle of banking of the cyclist going round the curve. Here v is the speed of the cyclist, r is the radius of the curve, and g is the acceleration due to gravity.

The banking angle is the angle that the surface makes with the horizontal, or the angle of inclination. The normal force acting on the car while travelling through such a curving road has a horizontal component. The centripetal force needed to prevent skidding is provided by this component.

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. If the same quantity of is supplied to P and Q and P has a temperature rise twice that of Q and has a mass that is half of the mass of Q. Find the ratio of the specific heat capacity of P to Q​

Answers

The ratio of the specific heat capacity of P to Q is 1:2, or cP/cQ = 1/2.

Specific heat is the amount of heat energy required to raise the temperature of a unit mass of a substance by one degree Celsius (or one Kelvin). It is a physical property that helps characterize the thermal behavior of materials.

Let's use the formula for heat energy:

Q = mcΔT

where Q is the heat energy supplied, m is the mass of the object, c is the specific heat capacity, and ΔT is the change in temperature.

We can write two equations for P and Q using this formula:

For P: Q = (1/2)mP * cP * 2ΔT

For Q: Q = mQ * cQ * ΔT

We know that both P and Q receive the same amount of heat energy, so we can equate the two equations:

(1/2)mP * cP * 2ΔT = mQ * cQ * ΔT

Simplifying this expression, we get:

cP/cQ = mQ/(2mP)

We are given that P has half the mass of Q, so mP = (1/2)mQ. Substituting this into the expression above, we get:

cP/cQ = mQ/(2(1/2)mQ) = 1/2

Therefore, the ratio of the specific heat capacity of P to Q is 1:2, or cP/cQ = 1/2.

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Jeremy is developing an experiment and is concerned about the accuracy of his data.

Which step can he take to best ensure accuracy?

conduct more trials
compare his results to other scientists’ results
record only the data that matches the correct value
make exact measurements and follow the procedure exactly

Answers

Answer:

make exact measurements and follow the procedure exactly

Explanation:

accurate doesn't mean correct. It just means that the results from the experiment are the result of following the procedure

A particle was moving in a straight line with a constant acceleration. If the particle
covered 17 m in the 2nd second and 46 m in the 9th and 10th seconds, calculate its
acceleration a and its initial velocity vo.

Answers

Answer:

Acceleration (a) = 3 m/s^2

Initial velocity (vo)= 7 m/s.

Explanation:

We can use the equations of motion to solve this problem. Let's start with the second equation of motion:

d = vot + (1/2)at^2

where d is the displacement, vo is the initial velocity, a is the acceleration, and t is the time.

Using this equation for the 2nd second, we have:

17 = vo(2) + (1/2)a(2^2)

17 = 2vo + 2a

Using the same equation for the 9th and 10th seconds, we have:

46 = vo(10) + (1/2)a(10^2) - vo(9) - (1/2)a(9^2)

46 = 10vo + 50a - 9vo - 40.5a

46 = vo + 9.5a

Now we have two equations with two unknowns (vo and a). We can solve for one variable in terms of the other and substitute into the other equation. For example, we can solve the first equation for vo:

2vo = 17 - 2a

vo = (17 - 2a)/2

Now we can substitute this expression for vo into the second equation:

46 = [(17 - 2a)/2] + 9.5a

Solving for a, we get:

a = 3 m/s^2

Now we can use the expression for vo to find its value:

vo = (17 - 2a)/2

vo = (17 - 2(3))/2

vo = 7 m/s

Therefore, the acceleration of the particle is 3 m/s^2 and its initial velocity is 7 m/s.

Answer:

Acceleration (a) = 3 m/s^2

Initial velocity (vo)= 7 m/s.

Explanation:

We can use the equations of motion to solve this problem. Let's start with the second equation of motion:

d = vot + (1/2)at^2

where d is the displacement, vo is the initial velocity, a is the acceleration, and t is the time.

Using this equation for the 2nd second, we have:

17 = vo(2) + (1/2)a(2^2)

17 = 2vo + 2a

Using the same equation for the 9th and 10th seconds, we have:

46 = vo(10) + (1/2)a(10^2) - vo(9) - (1/2)a(9^2)

46 = 10vo + 50a - 9vo - 40.5a

46 = vo + 9.5a

Now we have two equations with two unknowns (vo and a). We can solve for one variable in terms of the other and substitute into the other equation. For example, we can solve the first equation for vo:

2vo = 17 - 2a

vo = (17 - 2a)/2

Now we can substitute this expression for vo into the second equation:

46 = [(17 - 2a)/2] + 9.5a

Solving for a, we get:

a = 3 m/s^2

Now we can use the expression for vo to find its value:

vo = (17 - 2a)/2

vo = (17 - 2(3))/2

vo = 7 m/s

Therefore, the acceleration of the particle is 3 m/s^2 and its initial velocity is 7 m/s.

Explanation:

no use of bots . anything bot will be reported

Answers

Period, T [tex]\Longrightarrow T=\frac{60}{14} \Longrightarrow T \approx 4.286 \ s[/tex]

Using the equation, [tex]T=2 \pi \sqrt{\frac{l}{g} }[/tex], find l. ("g" is the acceleration from gravity, 9.8 m/s^2)

[tex]T=2 \pi \sqrt{\frac{l}{g} } \Longrightarrow 4.286=2 \pi \sqrt{\frac{l}{9.8} } \Longrightarrow \frac{4.286}{2 \pi} =\sqrt{\frac{l}{9.8} }[/tex]

[tex]\Longrightarrow (\frac{4.286}{2 \pi})^2 =\frac{l}{9.8} \Longrightarrow l =9.8(\frac{4.286}{2 \pi})^2 \Longrightarrow l \approx 4.560 \ m[/tex]

Thus, the radio booth is 4.560 m from the field.

Period, T [tex]\Longrightarrow T=\frac{60}{14} \Longrightarrow T \approx 4.286 \ s[/tex]

Using the equation, [tex]T=2 \pi \sqrt{\frac{l}{g} }[/tex], find l. ("g" is the acceleration from gravity, 9.8 m/s^2)

[tex]T=2 \pi \sqrt{\frac{l}{g} } \Longrightarrow 4.286=2 \pi \sqrt{\frac{l}{9.8} } \Longrightarrow \frac{4.286}{2 \pi} =\sqrt{\frac{l}{9.8} }[/tex]

[tex]\Longrightarrow (\frac{4.286}{2 \pi})^2 =\frac{l}{9.8} \Longrightarrow l =9.8(\frac{4.286}{2 \pi})^2 \Longrightarrow l \approx 4.560 \ m[/tex]

Thus, the radio booth is 4.560 m from the field.

The Mako rollercoaster at Sea World has a starting drop of 61m from the ground. What is the velocity of the 500kg passenger cart if it passes over a second hump that is 20m off the ground?

Answers

Setting the initial potential energy equal to the final potential energy and solving for v, we get:

mgh1 = (1/2)mv^2 + mgh2
v = sqrt(2gh1 - 2gh2)

Substituting the values we get:

v = sqrt(29.861 - 29.820) ≈ 29.3 m/s

Therefore, the velocity of the passenger cart at the top of the second hump is approximately 29.3 m/s.

Josh was blowing bubbles through a straw into a glass of tap water. As Josh exhaled into the straw, he blew carbon dioxide gas into the water. The harder he blew, the more bubbles entered the water. The more bubbles, the ______________ the solution gas/water solution.
Responses

Answers

Josh was blowing bubbles through a straw into a glass of tap water. As Josh exhaled into the straw, he blew carbon dioxide gas into the water. The harder he blew, the more bubbles entered the water. The more bubbles, the more saturated the solution gas/water solution.

This is because the bubbles increase surface area of gas-water Interface, allowing for more gas molecules to come into contact with  water and dissolve. As more gas dissolves,  concentration of the gas in the water increases, and the solution becomes more saturated . This effect is known as Henry's law, which states that amount of gas that dissolves in a liquid is directly proportional to the partial pressure of the gas above liquid.

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3
3
4.
How are the Celsius and Kelvin scales similar in regard to their fiduciary points?
Both align absolute zero with 0.
Both use absolute zero and the triple point of water.
Both use absolute zero and the boiling point of water.
Both use the freezing point and boiling point of water.

Answers

B) Both employ the triple point of water and absolute zero.

Absolute zero and the triple point of water serve as the foundation for both the Celsius and Kelvin scales. Absolute zero, or 0 K on the Kelvin scale and -273.15 °C on the Celsius scale, is the temperature at which all matter has no thermal energy.

The triple point of water is determined to be 273.16 K on the Kelvin scale and 0.01 °C on the Celsius scale. It is the temperature and pressure at which water can coexist in all three phases (solid, liquid, and gas) in equilibrium.

Absolute zero and the triple point of water serve as identical fiduciary points for both the Celsius and Kelvin temperature systems. The temperature ranges for each scale are determined by the fiduciary points, which are essential to temperature scales.

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A current of 1.4A when flowing through a circuit for 15 minutes dissipates 200 KJ of energy calculate (a) the p.d (b) power dissipated and (c) the resistance of the circuit.

Answers

When a current of 1.4A when flowing through a circuit for 15 minutes dissipates 200 KJ of energy then he p.d is 158 Volt , Power dissipated and the resistance of the circuit is 222 W and 112Ω resp.

Electric circuit, a channel for carrying electric current. An electric circuit consists of a device that provides energy to the charged particles that make up current, such as a battery or a generator, as well as equipment that consume current, such as lights, electric motors, or computers, and the connecting wires or transmission lines. Ohm's law and Kirchhoff's rules are two fundamental laws that quantitatively define the behaviour of electric circuits.

Given,

Current I = 1.4 A

Energy Dissipated E = 200 kJ

time t = 15 minute = 900s

Power dissipated in the circuit,

P = E/t = 200000/900 = 222 W

Power is a voltage times current,

P =VI

222 = 1.4 × V

V = 158 Volt

according to ohms law

V = RI

R = V/I = 158/1.4 =  112Ω.

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f q1 has the same magnitude as before but is negative, in what region along the x-axis would it be possible for the net electric force on q3 to be zero? (a) x , 0 (b) 0 , x , 2 m (c) 2 m , x​

Answers

Answer:

(b) 0, x, 2m

Explanation:

Let's first draw a diagram to help visualize the situation. Let's say that q1 is located at the point x=2m and q3 is located at the origin (x=0).

q1 q3
|-------------------|
2 meters

Since the magnitude of q1 is the same as before, the magnitude of the electric force that it exerts on q3 is also the same as before.

However, since q1 is now negative, the direction of the electric force is also reversed.

To find the region along the x-axis where the net electric force on q3 is zero, we need to find the point where the electric force due to q1 is equal in magnitude but opposite in direction to the electric force due to q3.

This means that the electric field vectors due to q1 and q3 must be pointing in opposite directions at this point.

Since the electric field vectors due to q1 and q3 both point radially away from the point charges, the point where they point in opposite directions must lie somewhere along the line that passes through q1 and q3.

Using our diagram, we can see that the point where the electric field vectors due to q1 and q3 point in opposite directions must lie somewhere between x=0 and x=2m, since this is the region where the line passing through q1 and q3 intersects the x-axis.

If the universe were to suddenly begin shrinking rather than continue expanding, how would it affect the cosmic microwave background radiation?
A. It would decrease in temperature.
B. It would blue-shift.
C. It would red-shift.
D. It would increase in temperature.

Answers

C. It would red-shift. The cosmic microwave background radiation (CMB) is the leftover radiation from the Big Bang.

What is radiation?

Radiation is the process by which energy is emitted from a source and travels through a medium or space. It is a form of energy that can be found in a variety of forms, such as light, heat, and sound. Radiation can also be used to refer to the release of particles or electromagnetic waves from an atomic nucleus during radioactive decay. These particles and waves can be harmful to humans and animals if they are too strong or long lasting. Radiation is also used in medical, industrial, and scientific applications to diagnose and treat diseases, sterilize products, and to provide energy for power plants.

It is composed of a low-energy form of light called microwaves. If the universe were to start shrinking, this microwaves would be stretched out (red-shifted) as the universe gets smaller. This red-shifting would cause the CMB to become less energetic, and therefore decrease in temperature.

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Which of the following is not an application of ultrasonic waves?
acoustic amplification
medical imaging
O echolocation
nondestructive testing

Answers

Acoustic amplification is not an application of ultrasonic waves.

What are Ultrasonic waves used for?

Ultrasonic waves are used in many different applications such as medical imaging, where they are used to create images of the internal structures of the human body.

Echolocation, which is used by animals such as bats and dolphins to navigate their environment, also relies on the use of ultrasonic waves. Additionally, ultrasonic waves are used in nondestructive testing to detect flaws or defects in materials without damaging them.

Acoustic amplification, on the other hand, involves the use of sound waves to amplify or enhance the sound produced by a musical instrument or a speaker. It does not involve the use of ultrasonic waves.

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A pool of water has a rectangular base of 5 m by 10 m and the water is 6 m deep. What is the pressure on the base of the pool taken g = 10m/ss

Answers

The pressure at the base of the pool is equal to the weight of the water above it divided by the area of the base.

The weight of the water can be calculated using its mass and acceleration due to gravity (g).

Mass of water = density x volume
Density of water = 1000 kg/m^3 (at 4°C)
Volume of water = base area x height = 5 m x 10 m x 6 m = 300 m^3

Therefore, mass of water = 1000 kg/m^3 x 300 m^3 = 300000 kg

The weight of the water = mass x g = 300000 kg x 10 m/ss = 3,000,000 N

The area of the base is 5 m x 10 m = 50 m^2

Therefore, the pressure on the base of the pool is:

Pressure = Weight of water / Area of base = 3,000,000 N / 50 m^2 = 60,000 N/m^2

So, the pressure on the base of the pool is 60,000 N/m^2 when g is assumed to be 10m/ss.

What is the wavelength of a radar signal that has a frequency of 33 GHz?​

Answers

Explanation:

For electromagnetic waves    c = wavelength * frequency

 c = speed of light = 3 x 10^8 m/ s

                                    3 x 10^8 m/s = wl * 33 x 10^9  Hz

                                        wl = .009 m      ( or  9 mm)

If a radar signal that has a frequency of 33 GHz, Then the wavelength of the radar signal is  9 mm.

What is wavelength?

Wavelength is a fundamental concept in the study of waves, which are disturbances that propagate through space or a medium. It is defined as the distance between two consecutive points in a wave that are in phase, meaning that they have the same position in their respective cycles.

In other words, the wavelength is the spatial period of a wave, which is the distance over which the wave repeats itself. It is commonly represented by the Greek letter lambda (λ) and is measured in meters (m), although it can also be expressed in other units such as nanometers (nm) or micrometers (μm).

Wavelength is a key property of waves, as it determines many of their characteristics and behavior. For example, the wavelength of an electromagnetic wave (such as light or radio waves) determines its color or frequency, and thus its energy and ability to interact with matter. Similarly, the wavelength of a sound wave determines its pitch, and thus its perceived tone and musical quality.

The relationship between wavelength, frequency, and velocity is described by the wave equation, which states that the velocity of a wave is equal to the product of its wavelength and frequency. This relationship is important for understanding how waves behave and interact with their environment, such as when they are reflected, refracted, or diffracted.

So, the wavelength is a crucial concept in the study of waves, as it defines their properties and behavior. It is the distance between two consecutive points in a wave that are in phase, and is measured in meters or other units. The relationship between wavelength, frequency, and velocity is described by the wave equation, which is fundamental to the study of waves in various fields such as physics, engineering, and communication.

Here in the Question,

The wavelength of a radar signal can be calculated using the formula:

wavelength = speed of light/frequency

where the speed of light is approximately 3 x 10^8 meters per second.

Plugging in the given frequency of 33 GHz (33 x 10^9 Hz), we get:

wavelength = 3 x 10^8 / (33 x 10^9)

wavelength = 0.009090909... meters

Therefore, By rounding to the nearest millimeter, the wavelength of the radar signal is approximately 9 mm.

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A 2.99 x 10-6 C charge is moving
perpendicular (90°) to the Earth's
magnetic field (5.00 x 10-5 T). If the
force on it is 2.14 x 10-8 N, how fast is
it moving?
[?] m/s
Velocity (m/s)
Enter

Answers

The charged particle is moving at a speed of 1.424 x 10³ m/s.

What is magnetic field?

In the vast expanse of space, a magnetic force can be detected within a region known as a magnetic field. This field is generated by either a magnet, an electric charge in motion, or an electric field undergoing change. To visually represent this force, it is depicted through directional field lines which illustrate the direction of the force on an imaginary magnetic pole situated at any point in space.

The intensity of this magnetic field is quantified by its measurement in units called Tesla (T).

Equation:

The force on a charged particle moving perpendicular to a magnetic field is given by the equation:

F = Bqv

where F is the force on the charge, B is the magnetic field strength, q is the charge of the particle, and v is its velocity.

Rearranging this equation, we can solve for v:

v = F / (B*q)

Substituting the given values, we get:

v = (2.14 x 10⁻⁸ N) / (5.00 x 10⁻⁵T * 2.99 x 10⁻⁶ C)

v = 1.424 x 10³ m/s

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Answer:142

Explanation: on acellus, and maybe on what ever else you are on, but i do know it's right on acellus!! :)

In this problem you will go through a simplified version of Rutherford’s calculation of the size of the gold nucleus. Suppose a piece of gold foil that is 0.010 cm thick and whose area is 1 cm x 1 cm is used in the experiment. It is observed that 99.93% of all -particles go through undeflected. The density of gold is 19,300 kg/m3. Determine the radius of the gold nucleus. Hint: first calculate the total number of gold atoms in the foil

Answers

A simplified version of Rutherford’s calculation of the size of the gold nucleus. A piece of gold foil that is 0.010 cm thick and whose area is 1 cm x 1 cm is used in the experiment. It is observed that 99.93% of all particles go through undeflected. The density of gold is 19,300 kg/m3.

Rutherford's experiment involved firing alpha particles (helium nuclei) at a thin sheet of gold foil to study the structure of atoms. Based on the results of this experiment, Rutherford was able to deduce that atoms have a small, dense nucleus at their center.

In this problem, we will go through a simplified version of Rutherford's calculation of the size of the gold nucleus.

First, we need to calculate the total number of gold atoms in the foil. We know that the foil is 0.010 cm thick and has an area of 1 cm x 1 cm, so its volume is

V = thickness x area = 0.010 cm x (1 cm x 1 cm) = 0.010 [tex]cm^{3}[/tex]

The density of gold is 19,300 kg/[tex]m^{3}[/tex], which is equivalent to 19.3 g/[tex]cm^{3}[/tex]Therefore, the mass of the gold foil is

m = density x volume =  19.3 g/[tex]cm^{3}[/tex] x 0.010 [tex]cm^{3}[/tex] = 0.193 g.

The molar mass of gold is 197 g/mol, so the number of gold atoms in the foil is

N = (0.193 g) / (197 g/mol) x (6.022 x [tex]10^{23}[/tex] atoms/mol) = 1.86 x [tex]10^{21}[/tex] atoms

Next, we need to determine the fraction of alpha particles that are deflected by the gold nucleus. We are told that 99.93% of all alpha particles go through undeflected, which means that only 0.07% of the alpha particles are deflected. This is a very small fraction, which suggests that the size of the gold nucleus must be very small compared to the size of the atom.

Assuming that the alpha particles are deflected only by the gold nucleus and not by the electrons, we can use the principle of conservation of momentum to estimate the size of the gold nucleus. When an alpha particle approaches the gold nucleus, it experiences a repulsive electrostatic force that causes it to change direction. The magnitude of this force is given by Coulomb's law

F = k[tex]q_{1}[/tex][tex]q_{2[/tex] / [tex]r^{2}[/tex]

Where k is Coulomb's constant, [tex]q_{1}[/tex] and [tex]q_{2}[/tex] are the charges of the alpha particle and gold nucleus, respectively, and r is the distance between them. Since the alpha particle has a positive charge and the gold nucleus has a positive charge, the force is repulsive.

If we assume that the alpha particle is initially moving directly toward the center of the gold nucleus, then at the point of closest approach, the alpha particle will have a velocity v that is perpendicular to the direction from the alpha particle to the gold nucleus. At this point, the force on the alpha particle will be perpendicular to its velocity, which means that it will change only the direction of the alpha particle's velocity, not its magnitude.

Using conservation of momentum, we can relate the angle of deflection θ to the distance of closest approach r.

m[tex]v^{2}[/tex] / r = k[tex]q_{1}[/tex][tex]q_{2[/tex] / [tex]r^{2}[/tex]

Where m is the mass of the alpha particle. Solving for r, we get

r = k[tex]q_{1}[/tex][tex]q_{2[/tex] / m[tex]v^{2}[/tex]

To estimate the size of the gold nucleus, we assume that the alpha particles are deflected by a single, stationary gold nucleus at the center of the atom. In reality, the gold nucleus is not stationary, but this assumption gives us a rough estimate of its size.

Hence, the alpha particles are undeflected with a probability of 0.9993, we can assume that they do not interact with the gold nucleus and that their path is a straight line through the foil.

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e =1.60×10−19C

me=9.11×10−31kg

k=8.99×109N⋅m2/C2

A point charge q = -0.55 nC is fixed at the origin. Where must an electron be placed in order for the electric force acting on it to be exactly opposite to its weight? (Let the y axis be vertical with the positive direction pointing up.)

Answers

Answer:

3.33×10^-5 meters above the origin along the positive y-axis

Explanation:

The weight of an object is given by its mass multiplied by the acceleration due to gravity, which is 9.81 m/s² near the surface of the earth. For an electron with mass me, its weight is:

W = me * g

= 9.11×10^-31 kg * 9.81 m/s²

= 8.93×10^-30 N

Since the electric force acting on the electron is opposite to its weight, the electric force must have the same magnitude as its weight but in the opposite direction:

|F_E| = |W| = 8.93×10^-30 N

The electric force between two point charges is given by Coulomb's law:

F_E = k * |q1| * |q2| / r²

where k is the Coulomb constant, q1 and q2 are the charges of the two particles, and r is the distance between them.

In this problem, q1 is the fixed charge of -0.55 nC at the origin, and q2 is the charge of the electron, which we want to find. Since we know the magnitude of the electric force between the two charges, we can solve for the distance between them:

r² = k * |q1| * |q2| / |F_E|

= 8.99×10^9 N⋅m²/C² * 0.55×10^-9 C * |q2| / (8.93×10^-30 N)

= 6.95×10^6 * |q2|

Taking the square root of both sides, we get:

r = 2.64×10^-3 * sqrt(|q2|)

Now, we need to find the distance r at which the electric force between the two charges is equal in magnitude but opposite in direction to the weight of the electron. Equating the expression for r above with the distance y along the y-axis where the electron is placed, we get:

2.64×10^-3 * sqrt(|q2|) = y

Since the electron is placed on the y-axis, its x and z coordinates are zero, and the distance between the electron and the fixed charge is simply the y-coordinate. The electric force between the charges will be attractive (i.e., in the negative y direction), so the direction of the force vector will be opposite to the positive y direction. Therefore, we can write the electric force on the electron as:

F_E = - k * |q1| * |q2| / y²

Setting this equal to the weight of the electron, we have:

k * |q1| * |q2| / y² = |W|

|q2| = |W| * y² / (k * |q1|)

= 8.93×10^-30 N * y² / (8.99×10^9 N⋅m²/C² * 0.55×10^-9 C)

= 1.56×10^-20 * y²

Substituting this expression for |q2| into the expression for r above, we get:

r = 2.64×10^-3 * sqrt(1.56×10^-20 * y²)

= 1.35×10^-11 * y

Equating this expression for r with the expression for y above, we have:

2.64×10^-3 * sqrt(1.56×10^-20 * y²) = y

Squaring both sides and simplifying, we get:

y = 3.33×10^-5 m

Therefore, the electron must be placed at a distance of 3.33×10^-5 meters above the origin, along the positive y-axis, in order for the electric force acting on it to be exactly opposite to its weight.

To summarize, we used Coulomb's law to relate the electric force between the electron and the fixed charge at the origin to the distance between them, and equated this force with the weight of the electron. We then solved for the distance at which the two forces are equal in magnitude but opposite in direction, and found that the electron must be placed 3.33×10^-5 meters above the origin along the positive y-axis.

Hope this helps!

12) The notion of task-appropriate processing implies that if you are preparing for a quiz you
should...

Answers

1. Study
2. Make a study group
3. Practice remembering everything

If each galaxy is 150 kpc across, how long does the event last?

In a galaxy collision, two similar-sized galaxies pass through each other with a combined relative velocity of 1200 km/s

Answers

If each galaxy is 150 kpc across, the event lasts for approximately 7.7 billion years.

How long does the event last?

To calculate the time for the event, we need to know the distance traveled by the galaxies during the collision. Since each galaxy is 150 kpc across and they are passing through each other, the total distance traveled is twice the diameter of one galaxy, or 300 kpc.

To find the time, we can use the formula:

time = distance / speed

where distance is 300 kpc and speed is 1200 km/s. However, we need to convert the distance to the same units as the speed, so let's convert kpc to km:

1 kpc = 3.086 × 10^16 meters

1 meter = 3.281 × 10^-6 miles

1 mile = 1.609 × 10^3 meters

1 kpc = 3.086 × 10^19 miles

So, 300 kpc is equal to:

300 kpc × 3.086 × 10^19 miles/kpc = 9.258 × 10^21 miles

Now we can plug in the values:

time = distance / speed

time = 9.258 × 10^21 miles / 1200 km/s

time ≈ 2.432 × 10^14 seconds

So the event lasts for approximately 2.432 × 10^14 seconds. To convert to a more meaningful unit, we can divide by the number of seconds in a year:

time ≈ 7.7 billion years

Therefore, the event lasts for approximately 7.7 billion years.

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A particular star is d = 56.1 light-years (ly) away, with a power output of P = 3.00 x 1026 W. Note that one light-year is the distance traveled by the light through a vacuum in one year. (a) Calculate the intensity of the emitted light at distance d (in nW/m2). nW/m2 (b) What is the power of the emitted light intercepted by the Earth (in kW)? (The radius of Earth is 6.37 x 10 m.) kw What If?

Answers

(a) Intensity of emitted light at distance d is approximately 1.95 nW/m². (b) Power of emitted light intercepted by Earth is approximately 3.67 kW.

How did you calculate the intensity of emitted light in part (a)?

The intensity of emitted light at distance d was calculated using the inverse square law, which states that intensity is inversely proportional to the square of the distance. I used the equation I = P/(4πd²) to calculate the intensity, where P is the power output of the star and d is the distance to the star.

How did you calculate the power of emitted light intercepted by Earth in part (b)?

To calculate the power of emitted light intercepted by Earth, I first calculated the surface area of a sphere with a radius equal to the distance between the Earth and the star. Then, I multiplied the intensity of the emitted light at that distance by the surface area of the sphere to get the total power of emitted light intercepted by Earth.

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i need too get them right because me and my friend are challeging each other

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2. Hooke saw tiny openings in cork and named them "cells", 3. Schleiden and Schwann discovered that all "organisms" are made of cells, 4. Schleiden and Schwann used microscopes to determine that the cell is the "basic unit" of life, 6. Water - do not mix with lipids, 7. Nucleic acids - contain instructions, 8. Proteins - some help break down nutrients, 9. Lipids - do not mix with water, and 10. Carbohydrates - sugar is one.

Water is a polar molecule, meaning it has a positive and negative end. Because of this polarity, water does not mix well with non-polar substances such as lipids. This property allows lipids to form membranes that can control the movement of substances in and out of cells.

Nucleic acids are large biomolecules that contain instructions for the development, function, and reproduction of all living organisms. The two main types of nucleic acids are deoxyribonucleic acid (DNA) and ribonucleic acid (RNA), which store and transmit genetic information.

Proteins are complex molecules made up of amino acids that perform a variety of functions in the body. Some proteins, called enzymes, help break down nutrients into smaller molecules that the body can use for energy and other processes.

Lipids are a group of biomolecules that are insoluble in water but are soluble in nonpolar solvents. They include fats, oils, and waxes, and are important for energy storage, insulation, and cell membrane structure.

Carbohydrates are biomolecules that contain sugars, such as glucose and fructose. They are an important source of energy for the body and are found in many foods such as fruits, vegetables, and grains.

Therefore, The correct answers are 2. Hooke saw tiny openings in cork and named them "cells", 3. Schleiden and Schwann discovered that all "organisms" are made of cells, 4. Schleiden and Schwann used microscopes to determine that the cell is the "basic unit" of life, 6. Water - do not mix with lipids, 7. Nucleic acids - contain instructions, 8. Proteins - some help break down nutrients, 9. Lipids - do not mix with water, and 10. Carbohydrates - sugar is one.

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A bag of sand weighing 5kg is suspended from the lower end of a rope. The bag is initially at rest. A 20.0 g bullet is fired at the bag with horizontal velocity of 650 ms¹, strikes the block, and exits with 100 ms. To what vertical height will the block be raised?​

Answers

We can solve this problem using the principle of conservation of momentum. Before the bullet strikes the bag, the total momentum of the system is zero because the bag is at rest. After the bullet strikes the bag and exits, the momentum of the system is still zero because the bullet and bag are moving together.

Let's define the positive direction as upward. Then, the initial momentum of the bullet is:

p_i = m_bullet * v_bullet = 0.02 kg * 650 m/s = 13 kg m/s

After the collision, the bullet and bag move together as a single system. Let's assume that the final velocity of the bullet-bag system is v_f, and the mass of the bullet and bag combined is:

m_total = m_bullet + m_bag = 0.02 kg + 5 kg = 5.02 kg

Using the conservation of momentum, we can equate the initial and final momenta:

p_i = p_f

m_bullet * v_bullet = m_total * v_f

Solving for v_f, we get:

v_f = (m_bullet * v_bullet) / m_total

v_f = (0.02 kg * 650 m/s) / 5.02 kg

v_f = 2.6 m/s

The final velocity of the bullet-bag system after the collision is 2.6 m/s. To find the height to which the bag is raised, we can use the principle of conservation of energy. The initial energy of the system is all gravitational potential energy stored in the bag, and the final energy of the system is the sum of the gravitational potential energy of the raised bag and the kinetic energy of the bullet-bag system:

m_bag * g * h = (1/2) * m_total * v_f^2

where g is the acceleration due to gravity (9.81 m/s^2), and h is the height the bag is raised.

Solving for h, we get:

h = [(1/2) * m_total * v_f^2] / (m_bag * g)

h = [(1/2) * 5.02 kg * (2.6 m/s)^2] / (5 kg * 9.81 m/s^2)

h = 0.337 m

Therefore, the bag is raised to a vertical height of about 0.337 meters when hit by the bullet.

Please help with the physics problem(single-loop circuits), provide step-by-step solution

Answers

Resistance of the resistors, R₁ and R₂ are 80Ω and 200Ω respectively.

V(A) = 12 V

ΔV(B) = 2 V

ΔV(C) = 5 V

R₃ = 200Ω

Since, the total voltage-drop along the upper branch must be 12 V, according to loop rule, the voltage-drop across resistor 3 is 5.0V

So, current through the loop,

I = V(C)/R₃

I = 5/200

I = 25 x 10⁻³A

a) Therefore, the resistance,

R₁ = V(B)/I

R₁ = 2/25 x 10⁻³

R₁ = 80Ω

b) Resistor 2 has the same voltage-drop as resistor 3. So, its resistance, R₂ is 200Ω.

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2) The velocity of three particles of masses 20g, 30g and 50g are 2i, 10j and 10k respectively. The velocity of the centre of mass the three particle) is​

Answers

The velocity of the center of mass (COM) is given by:

v_COM = (m1v1 + m2v2 + m3v3) / (m1 + m2 + m3)

where m1, m2, and m3 are the masses of the particles, and v1, v2, and v3 are their velocities.

Substituting the given values, we get:

v_COM = (0.02 kg)(2i m/s) + (0.03 kg)(10j m/s) + (0.05 kg)(10k m/s) / (0.02 kg + 0.03 kg + 0.05 kg)

v_COM = (0.04i + 0.3j + 0.5k) m/s

Therefore, the velocity of the center of mass of the three particles is (0.04i + 0.3j + 0.5k) m/s.

A 6.47 mm high firefly sits on the axis of, and 12.3 cm in front of, the thin lens A, whose focal length is 5.77 cm. Behind lens A there is another thin lens, lens B, with a focal length of 20.9 cm. The two lenses share a common axis and are 58.1 cm apart.What is the height of this image? Express the answer as a positive number.

Answers

A 6.47 mm high firefly sits on the axis of, and 12.3 cm in front of, the thin lens A, whose focal length is 5.77 cm, the height of the image is 2.61 mm.

We can use the thin lens equation to find the image distance and then use the magnification equation to find the height of the image.

Let's call the distance between the firefly and lens A "d1", the distance between the lenses "d2", the image distance from lens B "d3", and the height of the firefly "h1".

Using the thin lens equation for lens A:

1/fA = 1/d1 + 1/d3

Since the firefly is very small, we can assume that the rays of light from it are parallel to the axis of the lenses, so d1 = 12.3 cm.

Solving for d3, we get:

1/d3 = 1/fA - 1/d1

1/d3 = 1/5.77 cm - 1/12.3 cm

d3 = -23.46 cm

The negative value for d3 indicates that the image is formed on the same side of lens B as the firefly, which means it is a virtual image.

Now we can use the magnification equation:

m = -d3/d2

where m is the magnification of the image. The negative sign indicates that the image is inverted.

Using the distance between the lenses, d2 = 58.1 cm, we get:

m = -(-23.46 cm) / 58.1 cm

m = 0.403

This tells us that the image is smaller than the firefly, and its height is:

h2 = m * h1

h2 = 0.403 * 6.47 mm

h2 = 2.61 mm

Therefore, the height of the image is 2.61 mm.

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