Answer:
Rₓ = -10 N
Explanation:
The x-component of a vector R can be found using the following formula:
[tex]\boxed{{R_x = Rcos \ \theta}}[/tex],
where Rₓ is the x-component of R and Θ is the angle between the vector and the positive x-axis.
The 60° angle in the diagram is formed between the vector R and the negative x-axis. The angle we need, Θ, is its supplementary angle. Therefore,
Θ = 180° - 60°
= 120°
Now that we have the value of Θ, we can find its x-component using the formula above:
[tex]{{R_x = Rcos \ \theta}}[/tex]
⇒ [tex]R_x = 20 \times cos(120^{\circ})[/tex]
⇒ [tex]R_x = \bf -10[/tex]
Therefore, the x-component of R is -10 N.
Question 13 of 25
Which of the following processes do not depend on spontaneous radioactive
decay?
Check all that apply.
A. radium paint that makes watch dials glow in the dark
B. the process of bone-scan imaging
C. using carbon-14 to determine fossil ages
D. the energy production of the sun
E. the energy production in nuclear reactors
The following processes which do not depend on spontaneous radioactive decay is radium paint that makes watch dials glow in the dark which is therefore denoted as option A.
What is Radioactivity?This is referred to as the property which is exhibited by certain types of matter of emitting energy and subatomic particles spontaneously.
Bone scanning is based on the spontaneous radioactive decay oftechnetium-pp methyldiphosphate and energy production of the sun involved nuclear fusion. However radium paint that makes watch dials glow in the dark do not depend on spontaneous radioactive decay as the glow is also added to substances for aesthetic effects whic would have deemed it harmful.
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A 5. 0-kg box is on a horizontal frictionless surface. A force F acts on it at an angle. What is the x-component of the acceleration of the box?
The x-component of the acceleration of the box is given by the product of the acceleration a and the cosine of the angle theta between the force and the x-axis.
The x-component of the acceleration of the box can be found using the following formula:
a_x = F_x / m
Since the force is acting at an angle, we need to first find the x-component of the force, which can be calculated using:
F_x = F × cos(theta)
Assuming that the force F is the net force acting on the box and there are no other forces acting on it, we can use Newton's second law to find the magnitude of the force:
F = ma
where F is the net force, m is the mass of the box, and a is the acceleration of the box.
Therefore, the x-component of the acceleration of the box can be calculated as:
a_x = F_x / m
= (F × cos(theta)) / m
= [(ma) × cos(theta)] / m
= a × cos(theta)
where we have substituted the expression for the magnitude of the force from Newton's second law.
So, the x-component of the acceleration of the box is given by the product of the acceleration a and the cosine of the angle theta between the force and the x-axis.
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On a dry winter day, if you scuff your feet across a carpet, you build up a charge and get a shock when you touch a metal doorknob. In a dark room you can actually see a spark about 2 cm long. Air breaks down at a field strength of 3 × 10^6 N/C. How much charge have you built up? As- sume that just before the spark occurs, all the charge is in your finger, drawn there by in- duction due to the proximity of the doorknob. Approximate your fingertip as a sphere of di- ameter 1.42 cm, and assume that there is an equal amount of charge on the doorknob 2 cm away. Answer in units of C How many electrons does this correspond to? The elemental charge is 1.60218 × 10-19 C.
The number of electrons that corresponds to the number of charges is 2.71 × 10¹⁰ electrons.
How much charge have you built up?
The breakdown field strength of air is 3 × 10⁶ N/C, and the distance between the fingertip and the doorknob is 2 cm, so the electric field between the two is given by:
E = 3 × 10⁶ N/C
The electric field causes the charge on the fingertip to be drawn towards the doorknob, so we can calculate the charge on the fingertip using the formula:
q = 4π ε_0 x Er²
where;
r is the radius of the fingertip (0.71 cm) and
ε_0 is the permittivity of free space (8.854 × 10^-12 C^2/Nm²).
q = 4 x π x 8.854 × 10⁻¹² x 3 × 10⁶ x 0.71²
q = 2.17 × 10⁻⁸ C
The charge on the doorknob is equal and opposite to the charge on the fingertip, so the total charge on both is calculated as;
Q_total = 2 x 2.17 × 10⁻⁸ C
= 4.34 × 10⁻⁸ C.
The number of electrons is calculated as follows;
number of electrons = q / e
where;
e is the elementary charge (1.60218 × 10⁻¹⁹ C).number of electrons = ( 4.34 × 10⁻⁸ C / 1.60218 × ⁻¹⁹ C )
number of electrons = 2.71 × 10¹⁰ electrons
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waves of muscular contractions that propel food along the gastrointestinal tract are called:______.
The waves of muscular contractions that propel food along the gastrointestinal tract are called peristalsis.
Peristalsis is a coordinated and sequential contraction of smooth muscles that propels food through the digestive system. It starts when food is ingested and swallowed, and it continues until the food is eliminated from the body. Peristalsis occurs throughout the gastrointestinal tract, including the esophagus, stomach, small intestine, and large intestine. The contractions of peristalsis help mix the food with digestive juices and move it along the digestive tract, allowing the body to absorb nutrients and eliminate waste products efficiently. The waves of peristalsis are controlled by the enteric nervous system, which operates independently of the central nervous system and can function even if the nerves that connect the brain and the gut are severed.To know more about waves visit:
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how much work does a supermarket checkout attendant do on a can of soup he pushes 0.810 m horizontally with a force of 5.60 n? express your answer in joules and kilocalories. (for each answer, enter a number.)
The work done by the checkout attendant of the supermarket is 4.536 Joules or 0.00108413 Kilocalories.
The checkout attendant at a Supermarket is pushing a can of soup with the force of 5.6 Newton.
He is able to push the can of soup still a distance of 0.810m horizontally.
We know the formula of the work done is given by,
W = Fd
Where, W is work done, F is the force, d is the distance.
Putting all the values,
W = 5.6 x 0.81
W = 4.536 Joules.
This same amount of work in kcal will be equal to 0.00108413 Kilocalaorie.
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a 14500 kg railroad car travels alone on a level frictionless track with a constant speed of 21.0 m/s. a 6000 kg load, initially at rest, is dropped onto the car. what will be the car's new speed?
50.75 m/s will be the car's new speed. The law of conservation of momentum states that the momentum before and after a collision will be equal.
Momentum is the result of a particle's mass and velocity. Being a vector quantity, momentum possesses both magnitude and direction. According to Isaac Newton's second equation of motion, the force applied on a particle is equal to the time rate of change of momentum. Check out Newton's laws of motion. According to Newton's second law, if a particle is subjected to a constant force for a specific amount of time, the result of the force and time (referred to as the impulse) is equal to the change in momentum. On the other hand, a particle's momentum represents the length of time needed for a consistent force to bring it to rest.
Steps for calculation:
[tex]m1*v1 =m2*v2\\14500 *21 = 6000* v2\\50.75 m/s = v2[/tex]
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a uniform conducting rod of length 22 cm has a potential difference across its ends equal to 41 mv (millivolts). what is the magnitude of the electric field inside the conductor in units of n/c? (reminder: never include units with any submission to a numerical question.)
If a uniform conducting rod has a potential difference across its ends, a steady current will flow through it. Since the rod is uniform, the current density will also be uniform.
From Ohm's Law, we know that the current density (J) is equal to the electric field (E) divided by the electrical conductivity (σ) of the material. In this case, the material is a conductor, and so its electrical conductivity is very high.
The potential difference (V) across the rod is given as 41 mV. The length (L) of the rod is given as 22 cm. The formula for the electric field inside a uniform conductor is given by:
E = V / L
Substituting the given values, we get:
E = (41 mV) / (22 cm) = 1.86 V/m
However, the unit for the electric field is not volts/meter (V/m) but newtons/coulomb (N/C) or equivalently volts/meter (V/m). Therefore, we need to convert the units from volts/meter to newtons/coulomb by multiplying by the conversion factor of 1 V/m = 1 N/C. This gives us the final answer:
E = 1.86 N/C
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s the nitrogen in thermodynamic equilibrium with respect to vibrational energy? what is the vibrational temperature of the gas? is this value necessarily the same as the translational temperature? why or why not?
In thermodynamic equilibrium, the different forms of energy in a system, including vibrational energy, must be in balance. Therefore, if nitrogen is in thermodynamic equilibrium, its vibrational energy will be in balance with its other forms of energy.
The vibrational temperature of a gas is related to the average vibrational energy of its molecules. In the case of nitrogen, which is a diatomic gas, its molecules have multiple modes of vibration, including stretching and bending vibrations. The vibrational temperature of nitrogen can be calculated from the Boltzmann distribution, which relates the temperature of the gas to the relative populations of its energy states.
The vibrational temperature of nitrogen at room temperature is around 335 K. This is significantly higher than its translational temperature, which is around 300 K. The reason for this is that the vibrational energy of nitrogen molecules is not the same as their translational energy. While translational energy is associated with the motion of the molecule as a whole, vibrational energy is associated with the internal motion of the atoms within the molecule.
The vibrational temperature of a gas is not necessarily the same as its translational temperature, because the two forms of energy are not directly related. In a gas that is not in thermal equilibrium, the vibrational and translational temperatures can be different. However, in a gas that is in thermodynamic equilibrium, the different forms of energy will be in balance, and the vibrational temperature will be related to the translational temperature through the equipartition theorem.
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I need help writing a short abstract for my science project.
Topic: Does temperature change viscosity in liquid
yes it does
well i hope this helps
what is the net force on a block that is pulled to the right with 50 pounds of force and to the left with 60 pounds of force?
The net force on an object is the overall force acting on it, taking into account the direction and magnitude of all the individual forces. In this case, a block is being pulled to the right with a force of 50 pounds and to the left with a force of 60 pounds.
These forces are in opposite directions, so to find the net force, we need to subtract the force acting to the left from the force acting to the right. This results in a net force of -10 pounds, indicating that there is an overall force acting on the block to the left. This net force would cause the block to accelerate in the opposite direction of the larger force .
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each resistor has a resistance of . what is the equivalent resistance of the resistive network shown?
The equivalent resistance of the resistive network is 6 ohms.
What is resistance ?Resistance is the opposition to the flow of electric current, or the opposition to a change. It is caused by the collisions of electrons with the atoms in a material. Resistance is measured in Ohms and is represented by the Greek letter omega (Ω). Resistance is an important concept in electrical engineering and is used to calculate power, current, and voltage in electrical circuits. Resistance can be found in both conductors and insulators, and the resistance of a material depends on its composition, shape, and temperature. Resistance can be used to control the flow of current, protect circuits from damage, and convert electrical energy into heat. Resistance is an essential factor in determining the performance of electrical circuits.
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Use the drop-down menus to identify the order of these images for the formation of our solar syster
The correct sequence of images for the formation of our solar system from interstellar gas and dust is given below:
A. 2nd image
B. 1st image
C. 3rd image
How did the formation of the solar system occur?The universe was formed by the straightforward expansion of a single point almost a billion years ago. This is known as the Bing Bang theory.
About 4.5 billion years ago, a dense cloud of interstellar gas and dust gave rise to our solar system. The supernova shockwave from a nearby exploding star, or supernova, may have caused the cloud to collapse. This dust cloud burst into a spinning disk of material known as a solar nebula when it disintegrated.
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at a particular instant, a hot air balloon is 100 m in the air and descending at a constant speed of 2.0 m/s. at this exact instant, a girl throws a ball horizontally, relative to herself, with an initial speed of 34 m/s. when she lands, where will she find the ball? ignore air resistance.
The ball will land 98.10 meters vertically below the point where it was thrown and the girl will find the ball 153.68 meters horizontally away from her and 98.10 meters vertically below her.
Since the ball is thrown horizontally relative to the girl, it has no vertical velocity component initially. Therefore, the only force acting on the ball after it is thrown is the force due to gravity, which causes it to follow a parabolic path.
We can use the fact that the horizontal motion of the ball is independent of the vertical motion to analyze each motion separately. Let's start with the horizontal motion:
The horizontal velocity of the ball remains constant at 34 m/s throughout its flight, so we can use the equation:
distance = speed x time
to determine the horizontal distance traveled by the ball.
We know that the ball is thrown at the same instant that the balloon is 100 m above the ground, so we can use this to find the time it takes for the ball to reach the ground.
The time taken for the ball to hit the ground is the same as the time taken for an object to fall 100 m under gravity, since they both have the same vertical acceleration due to gravity.
Using the equation:
distance = 1/2 x acceleration x time^2
with an initial velocity of 0 m/s and an acceleration of 9.8 m/s^2, we can find the time taken for the ball to hit the ground:
100 m = 1/2 x 9.8 m/s^2 x time^2
time^2 = 100 m / (1/2 x 9.8 m/s^2) = 20.41 s^2
time = sqrt(20.41 s^2) = 4.52 s (taking the positive square root)
Now we can use the horizontal distance equation to find the horizontal distance traveled by the ball during this time:
distance = speed x time = 34 m/s x 4.52 s = 153.68 m
So the ball will land 153.68 meters horizontally away from the point where it was thrown.
To find the vertical distance that the ball travels, we can use the same equation:
distance = 1/2 x acceleration x time^2
but this time with an initial velocity of 0 m/s and a time of 4.52 s (since the time taken for the ball to hit the ground is also the time taken for the balloon to descend 100 m).
Using the acceleration due to gravity of 9.8 m/s^2, we get:
distance = 1/2 x 9.8 m/s^2 x (4.52 s)^2 = 98.10 m
So the ball will land 98.10 meters vertically below the point where it was thrown.
Therefore, the girl will find the ball 153.68 meters horizontally away from her and 98.10 meters vertically below her.
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a standing 80 kg man steps off a 4.0 m high diving platform and begins to fall from rest. the man comes to rest 2.0 seconds after reaching the water. what average force did the water exert on him?
Weight of the man = m * g = 80 kg * 9.81 m/s^2 = 784.8 N
Potential energy of the man = mgh = 80 kg * 9.81 m/s^2 * 4.0 m = 3139.2 J
Using the formula for work done by a force, the average force exerted by the water on the man can be calculated as: F = (mgh) / d = 3139.2 J / 2.0 s = 1569.6 N.
Therefore, the average force exerted by the water on the man is 1569.6 N.
What is the mass of the man who steps off the diving platform in this scenario?The mass of the man who steps off the diving platform is given as 80 kg in this scenario. Mass is a fundamental property of an object that describes the amount of matter present in it. In this case, the man is considered as a single object with a mass of 80 kg. This mass value is important in calculating the force exerted by the water on the man as he comes to rest. The mass of an object is an essential parameter in many physical calculations such as the calculation of kinetic energy, potential energy, and force.
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which explains how ocean currents affect global climates?(1 point) responses water absorbs little thermal energy and releases it over time and distance. water absorbs little thermal energy and releases it over time and distance. water absorbs little thermal energy and releases it all at once. water absorbs little thermal energy and releases it all at once. water absorbs a lot of thermal energy and releases it over time and distance. water absorbs a lot of thermal energy and releases it over time and distance. water absorbs a lot of thermal energy and releases it all at once.
The statement that explains how ocean-currents affect global climates is: "Water absorbs a lot of thermal energy and releases it over time and distance."
The ocean-currents can be say as the continuous movement of sea water bodies in the ocean. Ocean currents are like large rivers of water flowing through the oceans.
The movement of ocean-currents has a major impact on global climate because water is a good conductor and storage of heat.
When we check the factors which affects the ocean currents to happen we have to talk about Coriolis-Effect. Coriolis Effect refers to an internal force (Coriolis) that causes the deflection of an object in motion.
Wind, water density and topography are the other major factors which directly influence the ocean currents.
Strong winds can move the water surface causing the ocean currents. About water density, more dense water will sink and that sinking water pushes the water below it up. About topography, ridge in the ocean bottom moves the water upward, while valley in the ocean moves it downward.
When ocean currents flow, they absorb large amounts of thermal energy. This energy is then transported over time and distance, affecting the temperature and climate of the regions through which the currents flow.
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which moving object would have the least amount of kinetic energy if they were traveling at the same speed?
The object with least mass would have the least amount of kinetic-energy if they were traveling at the same speed.
Equation of kinetic energy is [tex]KE = (1/2) mv^2[/tex]
m is the mass of the object and v is velocity.
From the equation of kinetic energy we can see two factors which kinetic energy is depends upon. First one is mass of the moving object. Second one is the velocity of the object.
Kinetic energy is directly depending on the mass of the object. That means if mass is higher, then kinetic energy also higher.
Likewise kinetic energy directly depends upon the square of the velocity of the object. So if velocity of A is twice than B, then the kinetic energy of A will be 4 times than of B.
In the question it is stated that objects are traveling at the same speed. If the speed is same that is if velocity is same, then the only factor that affects the kinetic energy will be mass of the moving objects.
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What happens when you change the amplitude of a mass on a spring?
By changing the amplitude of a mass on a spring the maximum displacement, velocity, potential energy, and kinetic energy of the system are all affected.
A mass on a spring changes its greatest displacement from its equilibrium position as its amplitude is changed. This has numerous effects on how the mass-spring system moves:
1. Changing the amplitude of a mass on a spring has no effect on the motion's period, which remains constant. The object's mass and the spring's spring constant are the only factors that affect the period.
2. Increases in the maximum velocity of the mass are correlated with increases in the amplitude of the mass on the spring. This is because the mass accelerates more when it is further away from its equilibrium position when it encounters a stronger force from the spring.
3. The system's maximum potential energy rises because a mass on a spring has potential energy that is proportional to its square of displacement from equilibrium. As a result, increasing the mass of the spring's amplitude likewise raises the system's maximum potential energy.
4. The system's maximal kinetic energy rises: The kinetic energy of the mass on the spring oscillates between zero and a maximum value as it moves back and forth. The maximal kinetic energy of the system grows as the mass of the spring's amplitude increases.
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determine the longest wavelength of light capable to remove an electron from a sample of potassium metal, if the binding energy for an electron in k is 1.76 × 103 kj/mol?
The longest wavelength of the light that is capable to remove an electron from the potassium metal is 68 nm
The binding energy of the electron in potassium = 1.76 x 10⁶ J/mol
The longest wavelength required to remove the electron from the potassium can be found using the formula,
E = hc / λ
where E is the binding energy of the potassium
h is Planck's constant
c is the speed of light
λ is the wavelength of the light.
The energy required for one electron is
1.76 × 10⁶ / 6.02× 10²³ = 2.92 × 10⁻¹⁸
Let us substitute the known values in the above equation, we get
2.92 × 10⁻¹⁸ = 6.63 x 10⁻³⁴ x 3 x 10⁸ / λ
λ = 6.63 x 10⁻³⁴ x 3 x 10⁸ / 2.92 × 10⁻¹⁸
= 6.82 x 10⁻⁸
= 68.2 nm
Therefore, the wavelength of the light is 68.2 nm
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Using an electric kettle 200g of water at 100 is converted into steam at 100 in 300 second. The specific latent heat of steam is 2250j/g.
What is the average of electrical power used?
Using an electric kettle, 200 g of water at 100 is converted into steam at 100 in 300 seconds, so the specific latent heat of steam is 2250 j/g, and here the average of the electrical power used by the kettle is 1500 W.
What is the significance of the electric power used by a kettle?The amount of heat required to convert 200 g of water at 100 °C to steam at 100 °C is explain below,
Q = m × L (m = mass of water; L = specific latent heat of steam)
Q = 200g × 2250 J/g = 450000 J
The time to convert the water into steam = 300 seconds, thus the average power used is:
P = Q/t = 450000 J/300 s = 1500 W
Hence, here the average of the electrical power used by the kettle with 200g of water is 1500 W.
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Find the center of mass of the two particles in the figure below, where m1 = 6.0 kg and m2 = 2.1 kg.
The center of mass of the two particles is located at (-0.76, 0).
To find the center of mass of the two particles, we need to calculate the coordinates of the point where the total mass of the system is concentrated.
The center of mass is given by:xcm = (m1x1 + m2x2) / (m1 + m2)
ycm = (m1y1 + m2y2) / (m1 + m2)
where x1 and y1 are the coordinates of mass m1,
x2 and y2 are the coordinates of mass m2, and
m1 and m2 are the masses of the particles.
Substituting the given values, we get:
xcm = (6.0 kg)(-3.0 m) + (2.1 kg)(4.5 m) / (6.0 kg + 2.1 kg) ≈ -0.76 m
ycm = (6.0 kg)(0 m) + (2.1 kg)(0 m) / (6.0 kg + 2.1 kg) ≈ 0 m
Therefore, the center of mass of the two particles is approximately located at (-0.76, 0). This means that the total mass of the system can be thought of as being concentrated at this point, and any external forces acting on the system can be treated as if they are acting on this point.
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choose the correct definition of electrical charge: A, Two charges exert only electrical force on each other. B. Two charges exert only magnetic forces on each other. C.Two charges interact electromagnetically. D.Two charges interact either electrically or magnetically.
The line where the two charges meet is the point of attraction or repulsion. The square of the distance between the two charges and the strength of the force are inversely related. Thus, option C is correct.
What are the charges that interact electromagnetically?Finally, there are two different kinds of electric charge, which we will refer to as positive charge and negative charge. According to Newton's third law, this is the strength of the force that one charge has on the other charge.
With the use of Coulomb's law, the force of electromagnetic attraction or repulsion between two charges can be determined.
In contrast to like charges, which resist one another, opposite charges attract one another. A positive charge therefore attracts a negative charge, but two negative charges repel one another.
Therefore, Two charges interact electromagnetically.
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a super happy fun ball is dropped from a height of 6 feet and rebounds of the distance from which it fell. how many times will it bounce before it's rebound is less than 1 foot?
A super-happy fun ball is thrown from a height of six feet, and it returns to the point where it was dropped. It only bounces once before rebounding less than a distance of one foot.
To solve this problem, we can use a geometric series to represent the distance traveled by the ball after each bounce.
Let's denote the height of the ball after the nth bounce as [tex]h_n[/tex]. Then we have:
[tex]h_1 = 6[/tex] (the initial height of the ball)
[tex]h_2 = 6 + 6 = 12[/tex] (the height after the first bounce)
[tex]h_3 = 6 + 6 + 6 = 18[/tex] (the height after the second bounce)
[tex]h_4 = 6 + 6 + 6 + 6 = 24[/tex] (the height after the third bounce)
and so on.
The height after the [tex]n^t^h[/tex] bounce:-
[tex]h_n = 6 * 2^(^n^-^1^)[/tex]
Now, we want to find the number of bounces that the ball will make before its rebound height is less than 1 foot. In other words, we want to find the smallest value of n such that[tex]h_n/2 < 1.[/tex] This is equivalent to:
= [tex]6 * 2^(^n^-^1^) / 2 < 1[/tex]
= [tex]3 * 2^(^n^-^1^) < 1[/tex]
= [tex]2^(^n^-^1^) < 1/3[/tex]
= [tex]n-1 < log2(1/3)[/tex]
= [tex]n < log2(1/3) + 1[/tex]
= [tex]log2(1/3) = -1.585, so n < -1.585 + 1 = -0.585[/tex].
Since n must be a positive integer, the smallest value of n that satisfies the condition is n = 1.
Therefore, the ball will bounce once before its rebound height is less than 1 foot.
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Solve with a vivid explanation pls
1. A man jumps out of an airplane and is accelerating towards the ground. Consider air
resistance.
A) Draw the forces acting on the falling man.
B) Write a paragraph explaining your diagram and what is happening to the man.
C) What is the final velocity of the man after being in flight for 1.25 minutes.
4. If a cyclist is travelling with a speed of 12 miles per hour.
A) Draw a diagram for the action of the cyclist.
B) Determine the number of meters the cyclist will have travelled in 25 minutes keep
track of the units in the solution calculations.
Explanation:
A man jumps out of an airplane and is accelerating towards the ground. Consider air resistance.
A) Draw the forces acting on the falling man.
There are two forces acting on the falling man: the force of gravity and the force of air resistance. The force of gravity is pulling the man downwards towards the ground, while the force of air resistance is pushing upwards against the man's motion.
F_gravity
↓
-------------
| |
| Man |
| |
-------------
↑
F_air resistance
B) Write a paragraph explaining your diagram and what is happening to the man.
The diagram shows the two forces acting on a man who is jumping out of an airplane and accelerating towards the ground. The force of gravity is the stronger force and is pulling the man downwards towards the ground, while the force of air resistance is pushing upwards against the man's motion. As the man falls, he gains speed due to the force of gravity, but the force of air resistance also increases. Eventually, the force of air resistance will become equal in magnitude to the force of gravity, and the man will reach a constant speed called the terminal velocity. At this point, the net force on the man will be zero and he will continue to fall at a constant speed.
C) What is the final velocity of the man after being in flight for 1.25 minutes.
Assuming that the man falls straight down without any additional forces or complications, we can use the equations of motion to calculate the final velocity.
First, we need to convert the time to seconds:
t = 1.25 minutes = 1.25 x 60 seconds = 75 seconds
Next, we need to know the acceleration due to gravity, which is approximately 9.8 m/s^2.
Using the equation:
v = u + at
where v is the final velocity, u is the initial velocity (which is zero in this case), a is the acceleration due to gravity, and t is the time in seconds, we can calculate the final velocity:
v = 0 + (9.8 m/s^2 x 75 s) = 735 m/s
Therefore, the final velocity of the man after being in flight for 1.25 minutes is approximately 735 m/s.
Note that this calculation assumes that air resistance is negligible, which is not entirely true. In reality, the man would experience air resistance and reach a lower terminal velocity. However, the effects of air resistance can be difficult to model accurately, and this simple calculation provides a reasonable approximation for the final velocity.
If a cyclist is travelling with a speed of 12 miles per hour.
A) Draw a diagram for the action of the cyclist.
The diagram for the action of the cyclist would show the direction of motion and the forces acting on the cyclist. Since the cyclist is travelling at a constant speed, the net force on the cyclist must be zero. The forces acting on the cyclist are the force of friction between the tires and the ground, the force of air resistance, and the force of gravity.
F_air resistance
↑
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| Cyclist |
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F_friction ← |
A 7.72 kg box is sliding to the right at a constant velocity of 12:14. If the box has a force 53.14 applied to the right, what is the magnitude of the force of friction?
Type your answer...
Well, you didn't tell us what the unit of the 53.14 is. But whatever it is, the force of friction is the same 53.14 of them.
The only way the box can move with constant velocity is if the forces acting on it all add up to zero. So the force of friction to the left, holding it back, must be exactly equal to the force pushng it forward to the right.
Notice that none of this depends on the mass of the box, or WHAT the constant velocity IS. None of that information matters, or makes any difference. It's only included in the question to confuse and distract us.
How do photons interact with charged particles?
Photons can interact with charged particles in a number of ways, depending on the energy of the photon and the properties of the charged particle.
explain about the process of scattering ?
In the process of scattering, a photon collides with a charged particle, causing it to change direction. This can occur through various mechanisms, such as Compton scattering, where a photon transfers some of its energy to an electron, causing it to recoil and emit a new photon with a different wavelength and direction.
In the process of absorption, a photon is absorbed by a charged particle, which may then be excited to a higher energy level. This can occur through various mechanisms, such as the photoelectric effect, where a photon ejects an electron from an atom or molecule, or through excitation of the electrons in a material.
Overall, the interaction between photons and charged particles depends on the properties of both the photon and the charged particle, such as their energy, wavelength, and charge, as well as the physical environment in which they interact.
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calculate the height (in m) of a cliff if it takes 2.24 s for a rock to hit the ground when it is thrown straight up from the cliff with an initial velocity of 8.04 m/s.
The height of the cliff is 13.2 meters. We can solve this problem using the kinematic equations of motion. The key equation that we need to use is the equation that relates the final velocity (vf), initial velocity (vi), acceleration (a), displacement (d), and time (t): [tex]vf = vi + at[/tex]
If we assume that upward is the positive direction, then the acceleration due to gravity (g) is negative (-9.81 m/s^2), and the initial velocity of the rock is +8.04 m/s. We want to find the height of the cliff, which is the displacement of the rock when it hits the ground. We can use the equation above to solve for the time it takes for the rock to reach its maximum height, and then use this time to calculate the height of the cliff.
Step 1: Find the time it takes for the rock to reach its maximum height
At the maximum height, the final velocity of the rock is zero, so we can set vf = 0 in the equation above and solve for the time, t:
[tex]vf = vi + at\\0 = 8.04 m/s - 9.81 m/s^{2}*t\\t =\frac{ 8.04 m/s }{ 9.81 m/s^{2}}\\t = 0.82 s[/tex]
So, it takes 0.82 seconds for the rock to reach its maximum height.
Step 2: Find the displacement of the rock when it hits the ground
Since the rock was thrown straight up, it will take the same amount of time to reach its maximum height as it will take to fall back to the ground. So, the total time of flight is 2*t = 1.64 s. During this time, the displacement of the rock is equal to the height of the cliff. We can use the equation that relates displacement to initial and final velocity and time:
[tex]d = vit + \frac{1}{2}a*t^{2}[/tex]
To use this equation, we need to find the final velocity of the rock just before it hits the ground. Since the rock was thrown straight up, its velocity when it hits the ground is equal in magnitude but opposite in direction to its initial velocity:
vf = -8.04 m/s
Now we can plug in the values and solve for the displacement:
[tex]d = vit +\frac{ 1}{2}at^{2}\\d = 8.04 m/s * 1.64 s +\frac{1}{2}(-9.81 m/s^2)*(1.64 s)^{2}\\d = 13.2 m\\[/tex]
Therefore, the height of the cliff is 13.2 meters.
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i ned help quick pleaseeee
Every four years on Election day, American citizens vote for a new president:
primary electiongeneral electionpopular voteelectoral college votepopular voteelectoral college voteallThe house of representativesHow does the American electoral system work?The American electoral system is a complex process used to elect the President and Vice President of the United States. It is made up of two key components: the popular vote and the Electoral College.
The popular vote refers to the vote of the American citizens, who cast their ballots for the Presidential candidates on Election Day. The candidate who receives the most popular votes in a state wins the state’s electoral votes.
The Electoral College is made up of 538 electors, who are selected by the political parties in each state. The number of electors each state has is based on the state's population, with each state receiving a minimum of three electors.
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A man stands on a bathroom scale placed on the floor of a stationary elevator with the scale reading 740 N. What will be the reading on the scale when the elevator accelerates upward with an acceleration of 5.2 M/s2? Take g = 9.8 m/s2.
NEED ASAP PLEASE
Reading on the scale will be 1130 N when the elevator accelerates upward with an acceleration of 5.2 m/s2.
What is meant by acceleration?Change in velocity over the change in time is acceleration and is represented by : a = Δv/Δt.
Formula to calculate the apparent weight (W') is given by:
W' = W + ma
W is true weight of the person, m is mass of the person, and a is acceleration of the elevator.
Given, W = 740 N, a = 5.2 m/s2.
W = mg
g is acceleration due to gravity, which is 9.8 m/s2.
740 N = m * 9.8 m/s2
m = 740 N / 9.8 m/s2 = 75.5 kg
W' = W + ma = 740 N + (75.5 kg)(5.2 m/s2) = 740 N + 390 N = 1130 N
So, the reading on the scale will be 1130 N when the elevator accelerates upward with an acceleration of 5.2 m/s2.
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A carton of paper has a mass of 22.7 kg. The area of the bottom is 0.119 m². What is the
pressure between the carton and the floor?
Pressure between the carton and the floor will be 1871 N/m².
Pressure is defined as the force applied perpendicular to an object's surface per unit area over which that force is distributed. Gauge pressure is the pressure in relation to the surrounding atmosphere. Pressure is expressed using a variety of units.
Given that a carton of paper has a mass of 22.7 kg. The area of the bottom is 0.119 m².
The pressure will be calculated as:-
P = Force / Area
Force = Weight = mg
P = mg / A
P = ( 22.7 x 9.81 ) / 0.119
P = 1871 M / m²
Hence, the pressure will be 1871 N / m².
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a. during the phase of full moon, what phase would you see for earth? would it be daylight or dark where you live?
During the phase of full moon, the phase you would see for Earth would be a new moon. This is because during a full moon, the Moon is on the opposite side of the Earth from the Sun, so the side of the Moon that is facing the Earth is fully illuminated by the Sun.
What is full moon?When the Moon is positioned so that it is on the other side of the Earth from the Sun, it enters the full moon phase. This indicates that the Moon's side facing Earth is entirely lighted by the Sun, giving it the appearance of a brilliant, rounded disk in the sky.
The lunar cycle's brightest and most noticeable phase, the full moon, usually lasts for one or two nights. The Moon looks to be brightest and fullest at this moment, giving the ground below a dazzling glow.
In many cultures, the full moon is a significant cultural emblem and is frequently linked to mystical or spiritual significance. Additionally, it has been the focus of various scientific studies, including research into its effects on human.
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