Two balloons are separated by a distance of 25. 5 cm. One balloon is charged with a charge of + 6. 25 nC = + 6. 25 x 10-9 C and the other balloon is charges with a charge of - 3. 5 nC = - 3. 5 x 10-9 C. Calculate the magnitude of Coulombic Force between them. Explain what kind of coulombic force will exist between them (attractive or repulsive)?

Answer:

An infrared camera – also called IR camera, thermal means heat it can track your heat camera or thermal camera – is a measuring  by instrument it means its a measuring tool

used for non-contact measurements of the surface temperature of objects.

Explanation:

kids are oof

The speed with which the wave travels in the wire is 1333.55 m/s.

The speed with which a harmonic wave travels in a wire can be determined using the equation:

v = λf

where v is the speed of the wave, λ is the wavelength, and f is the frequency.

Substituting the given values, we get:

v = 2.17m * 615Hz

v = 1333.55 m/s

It's worth noting that the amplitude of the wave, which is given as 3.66mm, does not affect the speed of the wave.

The amplitude of a wave is the maximum displacement of a point on the wave from its rest position,

whereas the speed of the wave is determined by the properties of the medium through which it travels, such as its density and elasticity.

Harmonic waves are common in many physical systems, such as sound waves in air and electromagnetic waves in space.

Understanding the properties and behavior of waves is important in many areas of science and technology, from acoustics and optics to communications and signal processing.

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The acceleration of the box can be determined using Newton's second law of motion, where the net force acting on the box is equal to the mass of the box multiplied by its acceleration.

In this case, the net force acting on the box is equal to the force of the rope (250 n at an angle of 32.0° above the horizontal) minus the force of kinetic friction (0.350 × 50 kg × 9.81 m/s2). After solving for the acceleration, the acceleration of the box is 5.3 m/s2.

To summarise, the acceleration of a box being pulled along a horizontal surface with a force of 250 n at an angle of 32.0° above the horizontal and a coefficient of kinetic friction of 0.350 is 5.3 m/s2. This acceleration can be determined by using Newton's second law of motion and calculating the net force acting on the box.

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We get: v = sqrt(2gh) = sqrt(29.812) ≈ 6.26 m/sa). The angular velocity of the pendulum bob is approximately 3.13 rad/s.

At the highest point, the potential energy of the bob is at its maximum, and as it swings down, the potential energy converts to kinetic energy.

At the lowest point, all the potential energy is converted into kinetic energy, so we can use the conservation of energy principle to find the velocity of the pendulum bob at its lowest point.

The potential energy at the highest point is given by mgh, where m is the mass, g is the acceleration due to gravity, and h is the height above the lowest point.

The potential energy at the highest point is equal to the kinetic energy at the lowest point, so we can write: mgh = (1/2)mv^2

where v is the velocity of the pendulum bob at its lowest point. Plugging in the values given, we get: v = sqrt(2gh) = sqrt(29.812) ≈ 6.26 m/s

b) The angular velocity of the pendulum bob is given by ω = v/r, where r is the length of the pendulum. Plugging in the values given, we get: ω = v/r = 6.26/2 ≈ 3.13 rad/s

Therefore, the angular velocity of the pendulum bob is approximately 3.13 rad/s.

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A spring with a k value of 350 and a mass of 5 grams is compressed and released, converting all EPE into GPE. It rises up to a height of 4.37 meters before stopping, assuming no energy is lost to friction.

The potential energy stored in a spring is given by the formula:

[tex]EPE = 1/2 \times k \times x^2[/tex]

where k is the spring constant and x is the displacement of the spring from its equilibrium position. In this case, the spring is compressed by 3.5 cm or 0.035 meters, so the potential energy stored in the spring is:

[tex]EPE = 1/2 \times 350 \times 0.035^2 = 0.214 J[/tex]

When the spring is released, all of this potential energy is converted into gravitational potential energy (GPE) as the spring rises up in the air. The formula for GPE is:

[tex]GPE = m \times g \times h[/tex]

where m is the mass of the object, g is the acceleration due to gravity, and h is the height above the starting position.

Substituting the values given in the problem, we get:

[tex]0.214 J = 0.005 \;kg \times 9.81 \;m/s^2 \times h[/tex]

Solving for h, we get:

[tex]h = 0.214 J / (0.005 \;kg \times 9.81 \;m/s^2) = 4.37 m[/tex]

Therefore, the spring will rise up to a height of 4.37 meters before coming to a stop, assuming no energy is lost to friction.

In summary, by using the formulas for potential energy and gravitational potential energy, we can calculate the height that a spring will reach when launched into the air.

We found that the spring with a k value of 350 and a mass of 5 grams, when compressed 3.5 cm and released, will rise up to a height of 4.37 meters if all EPE is converted into GPE and no energy is lost to friction.

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The true statement is "The PGF acting on the wind was stronger yesterday than today because the pressure gradient was larger yesterday". Option 1 is correct.

The pressure gradient force (PGF) is the force that drives air from high-pressure areas to low-pressure areas. It is proportional to the pressure gradient, which is the change in pressure over a given distance.

Yesterday, the pressure changed by 5 mb over a distance of 75 km, so the pressure gradient was 5 mb/75 km = 0.067 mb/km. Today, the pressure changed by 5 ml over a distance of 105 km, so the pressure gradient was 5 ml/105 km = 0.048 ml/km.

Since the pressure gradient was larger yesterday, the PGF acting on the wind was stronger yesterday than today. This means that the wind would have been driven more forcefully yesterday than today, assuming all other factors remained constant.

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The complete question is:

Yesterday, the pressure surrounding your location changed by 5 mb over a horizontal distance of 75 km. today, it changes by 5 ml over a horizontal distance of 105 km. choose the true statement.

If the index of refraction of a material is 2, it means that light travels half as fast in air as it does in the material. The index of refraction is a measure of how much a material slows down light as it passes through it.

A higher index of refraction indicates that light is slowed down more, while a lower index of refraction implies that light passes through the material more easily.

In the case of a material with an index of refraction of 2, light moves at half its speed in air when it traverses the material. For instance, if light travels at a speed of 300,000 km/s in a vacuum or air, it would only travel at a speed of 150,000 km/s when passing through a material with an index of refraction of 2.

It is crucial to recognize that the speed of light remains constant, but its velocity and direction change when it encounters materials with different indices of refraction. Understanding the behavior of light in various materials is fundamental in fields such as optics, physics, and engineering.

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The unbalanced net force acting on the rope is 200 N to the left. This means that the rope will move in the direction of the net force, which is to the left.

The unbalanced net force is the overall force acting on the object after considering all the forces acting on it.

In this case, one person is pulling on a rope with a force of 400 N to the right and the other person is pulling on the opposite end with a force of 600 N to the left.

To determine the net force, we need to subtract the force acting in the opposite direction from the force acting in the forward direction.

Since the forces are in opposite directions, we need to subtract the smaller force from the larger force:

Net force = 600 N - 400 N = 200 N to the left

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Explanation:

F x d = work

490 N * 50 m = 24 500 J  of work

We can predict that the car full of riders will reach a speed of 28.0 m/s at the bottom of the first hill based on the principles of conservation of energy.

It is possible to predict the speed that a 2000 kg car full with riders will reach before it's ever placed on the track using the principles of conservation of energy. According to the law of conservation of energy, the total energy in a system remains constant, and it can be converted from one form to another.

To calculate the speed of the car at the bottom of the first hill, we can use the conservation of energy equation, which states that the initial potential energy (PEi) of the car is equal to the final kinetic energy (KEf) of the car.

PEi = KEf

[tex]mgh = 1/2mv^2[/tex]

Where m is the mass of the car, g is the acceleration due to gravity, h is the height of the hill, and v is the velocity of the car.

Solving for v, we get:

[tex]v = \sqrt{(2gh)}[/tex]

Using the given values of m = 2000 kg, h = 40 meters, and g = 9.81 m/s², we can calculate the velocity of the car at the bottom of the first hill:

[tex]v = \sqrt{(2gh)} = \sqrt{(2 \times 9.81 \;m/s^2 \times 40 m)} = 28.0 m/s[/tex]

Therefore, we can predict that the car full of riders will reach a speed of 28.0 m/s at the bottom of the first hill based on the principles of conservation of energy.

In summary, by using the conservation of energy equation, we can predict the speed of the car at the bottom of the first hill based on its mass and the height of the hill. We found that the car full of riders will reach a speed of 28.0 m/s using this method.

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The angular velocity of the moon is approximately [tex]2.7 \times 10^{-6[/tex] rad/s, which is the answer (d).

To calculate the angular velocity of the moon, we first need to understand what angular velocity is. Angular velocity is defined as the rate of change of angular displacement with respect to time. In simpler terms, it is the speed at which an object is rotating or moving in a circular path.

In this case, the moon is moving in a circular path around the Earth, so we can use the formula for angular velocity:

ω = θ / t

where ω is the angular velocity, θ is the angular displacement, and t is the time taken for one complete revolution.

We know that the time taken for one complete revolution of the moon around the Earth is 27.3 days. To convert this into seconds, we multiply by 24 hours in a day, 60 minutes in an hour, and 60 seconds in a minute:

t = 27.3 x 24 x 60 x 60 = 2,360,320 seconds

Now we need to find the angular displacement of the moon in one complete revolution. Since the moon moves in a circular path, its angular displacement is equal to the angle subtended by its path at the center of the earth. This angle is equal to 2π radians since the circumference of a circle is 2π times its radius (in this case, the distance from the moon to the center of the earth).

θ = 2π radians

Now we can substitute these values into the formula for angular velocity:

[tex]\omega = \frac{\theta}{t} = \frac{2\pi}{2{,}360{,}320} \approx 2.7\times 10^{-6}\ \mathrm{rad/s}[/tex]

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Yes, Terry should call 9-1-1 immediately because the man is mentally ill.

Based on the statement, if Terry is out with friends and sees a man who appears to be struggling with mental illness. And the man is ranting and waving his arms around in a very antagonistic way. He is also getting more agitated and pulls out a knife and starts jabbing it like he is attacking someone.

The man's behavior is dangerous and poses a potential threat to himself and others around him. The fact that he has pulled out a knife and is waving it in a threatening manner indicates that he may be a danger to himself or others.

In this situation, it is important to prioritize everyone's safety and call for emergency services to intervene and help the man.

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Answer:The frequency of a slinky spring wave is 5 hertz with a wavelength of 0.8 meters. What is its velocity?The speed can be found with a very simple equation: c = λ f = 0.8 ⋅ 5 = 4 m/s .

Explanation:

The speed can be found with a very simple equation: c = λ f = 0.8 ⋅ 5 = 4 m/s .

The mass of water that was heated in the calorimetry experiment was 547.73 g.

T is the temperature change (7.16 K). Rearranging the formula to find the mass (m):

m = Q / (cΔT) Plugging in the values:

m = 17000.0 J / (4.18 J/g·K × 7.16 K) m ≈ 657.71 g

So, approximately 657.71 grams of water was heated in the calorimetry experiment.

To calculate the mass of water that was heated, we need to use the formula:

Q = m × c × ΔT

where Q is the heat transferred, m is the mass of water, c is the specific heat capacity of water, and ΔT is the temperature change.

We are given that Q = 17000.0 J, ΔT = 7.16 K, and c = 4.18 J/(g·K) (the specific heat capacity of water). We can rearrange the formula to solve for m:

m = Q / (c × ΔT)

Substituting the values we have:

m = 17000.0 J / (4.18 J/(g·K) × 7.16 K)

m = 547.73 g

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The acceleration of the 34 kg child on a bike when being pushed with a force of 57 N would be approximately: 1.68 meters per second squared.

To calculate the acceleration of a 34 kg child on a bike when being pushed with a force of 57 N, you can use Newton's second law of motion. Newton's second law states that the force applied on an object is equal to the mass of the object multiplied by its acceleration (F = ma).

In this case, the applied force (Fa) is 57 N, and the mass (m) of the child is 34 kg. To find the acceleration (a), you can rearrange the formula as follows:

a = Fa/m

Now, plug in the given values:

a = 57 N / 34 kg

a ≈ 1.68 m/s²

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The caloris basin on mercury covers a large region of the planet, but few craters have formed on top of it. from this we conclude that iii) the caloris basin formed toward the end of the solar system's period of heavy bombardment.

From the observation that the Caloris Basin on Mercury covers a large region of the planet, but few craters have formed on top of it, we can conclude that the Caloris Basin likely formed toward the end of the solar system's period of heavy bombardment (option iii). This is because the basin has not accumulated a significant number of craters on top of it, suggesting that it was created after most of the intense impacts had occurred.

The other options are less likely: option i, that the Caloris Basin was formed by a volcano, is not as plausible since the basin is generally thought to have been formed by a massive impact event. Option ii, that erosion destroyed smaller craters on the basin, is unlikely as Mercury lacks the significant atmosphere and geological processes necessary for substantial erosion to occur. Finally, option iv, that Mercury's atmosphere prevented smaller objects from hitting the surface, is incorrect because Mercury's extremely thin atmosphere is not capable of shielding the surface from impacts. The correct option is iii) the caloris basin formed toward the end of the solar system's period of heavy bombardment.

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A water droplet's radius will increase linearly with time if it acquires mass at a rate proportional to its cross-sectional area while passing through a cloud. This will cause its speed to also increase linearly with time within the cloud if its initial radius is very small.

a. As the water droplet falls through the cloud, it acquires mass at a rate proportional to its cross-sectional area. Since the droplet is initially spherical, its cross-sectional area is proportional to its radius squared, i.e., [tex]a \propto r^{2}[/tex]

Therefore, the rate of increase in mass of the droplet is proportional to k times r². By Newton's second law, the acceleration of the droplet is proportional to the net force acting on it, which is equal to the gravitational force minus the buoyant force.

Since there is no resistive force acting on the droplet, the buoyant force is proportional to the volume of the droplet, which is proportional to r³. Thus, the acceleration of the droplet is proportional to [tex](k \times r^2) - (constant \times r^3)[/tex]. Therefore, the radius of the droplet will increase linearly with time as it falls through the cloud.

b. If the initial radius of the droplet, r0, is negligibly small, then its initial mass and velocity will also be small. As it falls through the cloud, it will acquire mass at a rate proportional to its cross-sectional area, which is proportional to r². Therefore, the rate of increase in mass will be proportional to r².

The acceleration of the droplet will be proportional to the net force acting on it, which is equal to the gravitational force minus the buoyant force. Since the initial velocity of the droplet is small, the buoyant force will also be small, and can be neglected. Thus, the acceleration of the droplet will be proportional to r².

By Newton's second law, the velocity of the droplet will increase linearly with time, since the acceleration is proportional to r², which is proportional to the rate of increase in mass of the droplet.

In summary, if a water droplet falling in the atmosphere acquires mass at a rate proportional to its cross-sectional area as it passes through a cloud, then its radius will increase linearly with time, and if its initial radius is negligibly small, then its speed will increase linearly with time within the cloud.

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By using,  the system of equations, the candy distributor must use: 20 kilograms of the 20% fat-content chocolate and 80 kilograms of the 60% fat-content chocolate to create 100 kilograms of a 52% fat-content chocolate.

To create 100 kilograms of a 52% fat-content chocolate, the distributor needs to mix a 20% fat-content chocolate with a 60% fat-content chocolate. Let's use the variables x and y to represent the amounts of the 20% and 60% chocolates, respectively.

The sum of the two chocolates must equal 100 kilograms:
x + y = 100

The fat-content percentage must equal 52%:
0.20x + 0.60y = 0.52 * 100

Now, we'll solve the system of equations. From the first equation, we can express y as:
y = 100 - x

Substitute this expression for y in the second equation:
0.20x + 0.60(100 - x) = 52

Expand and simplify:
0.20x + 60 - 0.60x = 52

Combine like terms:
-0.40x = -8

Divide by -0.40 to find x:
x = 20

Now that we have x, we can find y:
y = 100 - 20 = 80

So, the candy distributor must use 20 kilograms of the 20% fat-content chocolate and 80 kilograms of the 60% fat-content chocolate to create 100 kilograms of a 52% fat-content chocolate.

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The increase in the translational kinetic energy of the yo-yo is 0.0423 J.

To find the increase in the translational kinetic energy of the yo-yo, we need to calculate the work done on the yo-yo by the force applied by the hand.

The work done is given by: W = Fdcos(theta), where F is the force applied, d is the distance moved, and theta is the angle between the force and the displacement.

In this case, theta is 180 degrees since the force and displacement are in opposite directions.

Substituting the given values, we get:

W = (0.235 N)*(0.18 m)*cos(180 deg)

W = -0.0423 J

Since the yo-yo initially had kinetic energy due to its downward motion, the work done by the hand increases the yo-yo's total kinetic energy. The increase in kinetic energy is given by: ΔK = -W

Substituting the value of W, we get: ΔK = 0.0423 J

Therefore, the increase in the translational kinetic energy of the yo-yo is 0.0423 J.

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The lighter skater has moved 10 meters in the opposite direction from the heavier skater.

The skaters are initially at rest on the frictionless pond, so the total momentum of the system is zero. When they push away from each other, their momenta change, but the total momentum of the system remains zero. This is known as the conservation of momentum. Let's denote the initial position of the lighter skater as x1 and the final position as x2. The heavier skater moves in the opposite direction, so their final position is x2 + 10 m.

Using the conservation of momentum, we can write:

(m1)(v1) + (m2)(v2) = 0

where m1 and m2 are the masses of the skaters, and v1 and v2 are their velocities. Since the skaters were initially at rest, we have v1 = 0. Solving for v2, we get:

v2 = -(m1/m2) * v1 = 0

So the final velocity of the skaters is zero. The distance traveled by the lighter skater is equal to the distance between their initial and final positions, which is:

x2 - x1 = -10 m

As a result, the lighter skater has travelled 10 meters opposite the heavier skater.

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The sample will move very slowly in the opposite direction of the applied magnetic field, but it will eventually come to a stop when it reaches equilibrium.

Diamagnetic materials, unlike ferromagnetic or paramagnetic materials, do not possess any permanent magnetic moment or net magnetic dipole moment. The magnetic force acting on the diamagnetic material is perpendicular to its velocity, and hence it cannot accelerate the material along the direction of the magnetic field.

Since the sample is made of diamagnetic material, it will have a very weak and temporary magnetic moment induced in it when placed in a magnetic field. This induced magnetic moment will be in the opposite direction to the applied magnetic field. Therefore, the sample will experience a force in the direction opposite to the applied magnetic field. However, this force will be very weak since the diamagnetic material has a weak magnetic susceptibility.

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The 11 W device is likely to burn out when the switch is turned on, due to the higher voltage it will be subjected to compared to its rated voltage. It is important to ensure that the devices used in a circuit have the appropriate voltage rating to avoid damage or failure.

When two devices with different power ratings are connected in series, the voltage across each device is divided according to their power ratings. In this case, the two devices are rated 22 W and 11 W, respectively, and are connected in series across 440 V mains. The voltage across each device can be calculated using the formula V = P/I, where V is the voltage, P is the power rating, and I is the current.

For the 22 W device, the voltage across it is V = P/I = 22/0.1 = 220 V. For the 11 W device, the voltage across it is V = P/I = 11/0.1 = 110 V. Therefore, the 22 W device has a voltage rating of 220 V, which is the same as the voltage of the mains, and the 11 W device has a voltage rating of 110 V.

When the switch is turned on, the voltage across the two devices will be the same, which is 220 V. Therefore, the 22 W device will operate normally, but the 11 W device will be subjected to a higher voltage than its rated voltage. As a result, the 11 W device is likely to burn out before the 22 W device.

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The pressure in the cylinder of amotor cycle engine is 600000Pa. This acts on apiston with an area of o. Oo3m2. The force on the piston in newtons is 1800N

To find the force on the piston in newtons, we need to use the formula F = PA, where F is the force, P is the pressure, and A is the area.

Given that the pressure in the cylinder of the motor cycle engine is 600000Pa and the piston has an area of 0.003m2, we can plug these values into the formula:

F = 600000Pa x 0.003m2
F = 1800N

. This means that the pressure in the cylinder is able to exert a force of 1800N on the piston, which in turn helps to move the engine and generate power for the motor cycle.

It is important to note that the pressure and force involved in the functioning of a motor cycle engine are critical to its performance and efficiency. Proper maintenance and tuning of the engine are essential to ensure that the pressure and force are optimized for maximum power and durability.

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Considering an egg has a mass of 0.15 kg being at the top of a flight of stairs, the answers to the following questions are:

3. To find the height of the stairs, we'll use the potential energy formula: PE = mgh, where PE is potential energy (11 J), m is mass (0.15 kg), g is acceleration due to gravity (9.81 m/s^2), and h is the height we want to find.

Rearranging the formula for h: h = PE / (mg) => h = 11 J / (0.15 kg × 9.81 m/s^2) => h ≈ 7.47 m. So, the height of the stairs is approximately 7.47 meters.

4. When the egg is dropped and reaches the ground, all of its potential energy is converted into kinetic energy. Therefore, the kinetic energy right before the egg hits the ground is equal to its initial potential energy, which is 11 J.

5. To find the velocity right before the egg hits the ground, we'll use the kinetic energy formula: KE = 0.5mv^2, where KE is kinetic energy (11 J), m is mass (0.15 kg), and v is the velocity we want to find.

Rearranging the formula for v: v = sqrt(2 × KE / m) => v = sqrt(2 × 11 J / 0.15 kg) => v ≈ 12.12 m/s. So, the velocity of the egg right before it hits the ground is approximately 12.12 m/s.

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D. Electrical energy. Sophia does not use electrical energy when biking. The special tape on her bike reflects light energy from the sun to make it easier for cars to see her.

What is Light Energy?

Light energy is a form of electromagnetic radiation that travels through space as waves, and can be perceived by the human eye as colors of the visible spectrum. Light energy can also exist as particles called photons. Light energy is able to travel through transparent or translucent substances, such as air, water, and glass. Light energy plays a crucial role in many natural processes, such as photosynthesis, vision, and the heating of the Earth's atmosphere. It is also widely used by humans in applications such as lighting, telecommunications, and photography.

She uses a bell, which creates sound energy, to let other bikers know if she is going to move past them. The mechanical energy is used by Sophia to pedal the bike and move it forward.

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Because capacitors have the ability to filter signals, they are frequently employed in a variety of audio devices like loudspeakers, microphones, woofers, tweeters, and other similar devices.

Energy storage, power conditioning, electronic noise filtering, distant sensing, and signal coupling and decoupling are some of the most typical uses for capacitors. Capacitors are employed in a variety of industries because they serve an essential and adaptable function in a wide range of applications.

Today's smartphone antenna systems depend heavily on capacitors. They are mostly employed for impedance matching, frequency tuning, and filtering.

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The difference between the head and point of a nail when pushed against your skin with the same force is due to the difference in pressure. Pressure is calculated as force divided by area (P = F/A).

The point of the nail has a smaller area, which results in higher pressure, allowing it to pierce your skin. On the other hand, the head of the nail has a larger area, resulting in lower pressure, and therefore does not pierce your skin.

Pressure is defined as the force applied per unit area. It can be calculated using the equation P = F/A, where P represents pressure, F represents the force applied, and A represents the area over which the force is distributed.

When a nail is pushed against your skin with the same force, the pressure exerted by the nail depends on the area of contact between the nail and your skin.

The point of the nail has a smaller area compared to the head. Since the force applied remains the same, the pressure exerted by the nail point is higher because the force is distributed over a smaller area. This higher pressure allows the point of the nail to pierce through your skin.

On the other hand, the head of the nail has a larger area of contact. When the same force is applied, the pressure exerted by the nail head is lower because the force is distributed over a larger area. This lower pressure is why the head of the nail does not pierce your skin.

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The acceleration due to gravity on the surface of Titan is approximately 3.49 m/s². Thus, the correct option is B. 3.49 m/s².

To calculate the acceleration due to gravity on the surface of Titan, we can use the formula:

Acceleration due to gravity (g) = G * (Mass of Titan / Radius of Titan²)

Where:

G is the gravitational constant, approximately

[tex]6.67430 * 10^{-11} m^3/(kgs^2)[/tex]

Mass of Titan = 1.35 × [tex]10^{23[/tex] kg

Radius of Titan = 2.58 × [tex]10^6[/tex] m

Plugging in the values into the formula:

[tex]g = (6.67430 * 10^{-11} m^3/(kgs^2)) * (1.35 * 10^{23} kg) / (2.58 * 10^6 m)^2[/tex]

Calculating the value:

g ≈ 3.49 m/s²

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