Two piers, A and B, are located on a river: B is 1500 m downstream from A. Two friends must take round trips from pier A to pier B and return. One rows a boat at a constant speed of 4.00 km/h relative the water; the other walks on the shore at a constant speed of 4.00 km/h. The velocity of the river is 2.80 km/h in the direction from A to B. How much times does it take each person to make the round trip? Show all work.
The time will take for each persons to make a round trip will be=2.5 hours for pier A and 0.75 hours for pier B
Let's first find the time it takes for the rower to make the round trip. The rower's velocity relative to the water is 4 km/h, but the water is flowing at 2.8 km/h in the direction from A to B, so the rower's velocity relative to the shore is:
v_r = 4 km/h - 2.8 km/h = 1.2 km/h
The distance the rower travels is 2 * 1500 m = 3000 m, or 3 km. Therefore, the time it takes for the rower to make the round trip is:
t_r = 3 km / 1.2 km/h = 2.5 hours
Now let's find the time it takes for the walker to make the round trip. The walker's velocity is 4 km/h, so the time it takes for them to walk 1500 m from A to B is:
t_w = 1500 m / 4 km/h = 0.375 hours
The walker then turns around and walks 1500 m back to A, which takes another 0.375 hours. Therefore, the total time it takes for the walker to make the round trip is:
t_w = 2 * 0.375 hours = 0.75 hours
So the rower takes 2.5 hours and the walker takes 0.75 hours to make the round trip from pier A to pier B and back.
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a. derive the equation for the velocity vector as a function of time for the ball. assume that the ball is initially moving in the positive x-direction and positive y-directions.
To derive the equation for the velocity vector as a function of time for the ball, we need to know the acceleration vector as a function of time. Once we have the acceleration, we can integrate it with respect to time to obtain the velocity.
Assuming that the ball is moving in a two-dimensional plane (i.e., the x-y plane), the acceleration vector can be expressed as:
a = ax(t) i + ay(t) j
where, i and j are unit vectors in the x and y directions, respectively. We can determine the expressions for ax(t) and ay(t) by applying Newton's second law of motion:
F = ma
Where, F is the net force acting on the ball, m is the mass of the ball, and a is its acceleration.
Let's assume that the ball experiences a net force of F = Fx i + Fy j, where Fx and Fy are the x and y components of the force, respectively. Then we can write:
F = Fx i + Fy j = ma
Equating the x and y components, we get:
Fx = m*ax
Fy = m*ay
Solving for ax and ay, we get:
ax = Fx/m
ay = Fy/m
Now we can integrate ax(t) and ay(t) with respect to time to obtain the expressions for the velocity components:
v_x(t) = v_{0x} + ∫ ax(t) dt
v_y(t) = v_{0y} + ∫ ay(t) dt
where v_{0x} and v_{0y} are the initial velocities in the x and y directions, respectively.
If we know the expressions for Fx and Fy as functions of time, we can substitute them into the above equations to obtain the velocity vector as a function of time for the ball.
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the reaction of automobile exhaust and ultraviolet light question 61 options: produces industrial smog. is affecting the stratospheric ozone concentration. produces photochemical smog. forms smoke and fog.
Photochemical smog is produced. Nitrogen oxides (NOx) and volatile organic compounds (VOCs) from vehicle exhaust combine with sunlight to create photochemical smog.
What results from the reaction of sunlight and exhaust from vehicles?When sunlight interacts with nitrogen oxides and at least one volatile organic compound (VOC) in the atmosphere, photochemical smog is created. Automobile exhaust, coal-fired power plants, and industrial pollutants all produce nitrogen oxides.
What causes photochemical smog?When nitrogen oxides and volatile organic compounds (VOCs) combine with sunlight, a mixture of pollutants called photochemical smog is produced, which explains why there is a brown cloud above cities. Due to the fact that we receive the most sunshine in the summer, it tends to happen more frequently.
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17. A ball is thrown from position (1) to a height of 5 meters above at position (2), giving the ball potential
energy. The ball then falls to position (3). Assuming there is no loss of
energy due to friction:
2,
K
A. Name the height at which the kinetic energy of the ball would be
exactly the same as its potential energy?
B. Compare the potential energy at (3) to the kinetic energy at (2).
C. Compare the kinetic energy at (1) to the potential energy at (2).
m
The kinetic energy and the potential energy will be the same at point 1
At point 2 the kinetic energy is 0 while at point 3 the potential energy is 0.
The kinetic energy at 1 is zero while the potential energy at 2 is maximum
The momentum is 60 Kg m/s
The impulse is 900 Ns
What is the kinetic energy?Kinetic energy is the energy possessed by a moving object due to its motion. It is defined as the energy that an object possesses as a result of its motion, and is dependent on both the object's mass and velocity. The formula for calculating kinetic energy is:
Kinetic Energy = 1/2 x mass x velocity^2
where mass is the mass of the object in kilograms and velocity is its speed in meters per second.
Momentum = mv = 30 * 2 = 60 Kg m/s
Since Ft = mv
= 200 * 4.5 = 900 Ns
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the board can only bend so much, and therefore it can only store so much elastic potential energy before it breaks. this means that . select all that apply - In order to break the board, the ball must be dropped from a height greater than some minimum distance.
- In order to break the board, the ball must be moving at a speed greater than some minimum speed.
- The ball loses some, but not all, of its kinetic energy. It continues to move after the board breaks.
All three statements are correct based on the given information provided in the question.
In order to break the board, the ball must be dropped from a height greater than some minimum distance.In order to break the board, the ball must be moving at a speed greater than some minimum speed.The ball loses some, but not all, of its kinetic energy. It continues to move after the board breaks.All three statements are correct based on the given information. The first two statements relate to the amount of potential energy and kinetic energy the ball possesses, respectively, before impact with the board, which determines whether the board will break or not. The third statement relates to the conservation of energy, which dictates that the total energy of the system (the ball and the board) must remain constant, and some of the kinetic energy of the ball is transferred to the board as potential energy before the board breaks.
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Identical charges q = +7.00 μC are placed at opposite corners of a square that has sides of length 7.00 cm. Point A is at one of the empty corners, and point B is at the center of the square. A charge q0 = -1.00 μC is placed at point A and moves along the diagonal of the square to point B. How much work does the electric force do on q0 during its motion from A to B? Include a sign to show whether this work is positive or negative.
The work that the electric force do on q₀ during its motion from A to B is + 0.792 J.
What is work done?When an item is pushed across a specific distance by an external force, work is the quantity of energy that is transmitted to the object.
In the given problem, distance between q₀ and q is:
d₁ = √2 x 7.00 cm = 9.90 cm
The distance between q₀ and the charge q is:
d₂ = √2 x 7.00 cm = 9.90 cm
The electric force between two charges is given by Coulomb's law:
F = k × q₁× q₂ / r²
where k is the Coulomb constant, q₁ and q₂ are the charges, and r is the distance between them.
At point A, the electric force on q₀ due to the charge q is:
F1 = k × q₀ × q / d₁²
= (9.0 x 10⁹ N·m²/C²) × (-1.00 × 10⁻⁶C) × (7.00 × 10⁻⁶ C) / (9.90 x 10⁻² m)²
= -4.002 N
The negative sign indicates that the force is in the opposite direction to the displacement of q₀.
At point B, the electric force on q₀ due to the charge q is:
F2 = k × q₀ × q / d₂²
= (9.0 × 10⁹)× (-1.00 × 10⁻⁶) × (7.00 × 10⁻⁶) / (9.90 × 10⁻²)²
= -4.002 N
So, work done by a constant force:
W = F × d × cosθ
So the work done by the electric force on q₀ from A to B is:
W = F1 × d1 × cos(180) + F2 × d2 × cos(180) = (-4.002 N) × (9.90 × 10⁻² m) × (-1) + (-4.002 N) × (9.90 × 10⁻² m) × (-1) = 0.792 J
The positive value indicates that the work done by the electric force is in the direction opposite to the displacement of q₀, which means that the electric force does negative work on q₀.
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the magnitude of the normal acceleration is proportional to radius of curvature. inversely proportional to radius of curvature. inversely proportional to diamter of curvature. zero when velocity is constant.
The normal acceleration of a body travelling in a curved path is defined as the rate of change of its velocity vector. It is equal to the sum of the centripetal and tangential accelerations.
The magnitude of the normal acceleration is directly proportional to the radius of curvature, i.e a smaller radius of curvature implies a larger normal acceleration. Mathematically, the normal acceleration can be expressed as follows:
Normal acceleration = (v^2/r)
where v is the velocity of the body and r is the radius of the curvature. As the radius of the curvature decreases, the normal acceleration increases. Hence, the magnitude of the normal acceleration is directly proportional to the radius of curvature. On the other hand, it is inversely proportional to the diameter of curvature. The normal acceleration is also zero when the velocity of the body is constant. This happens when the body is travelling along a straight path. In such cases, the normal acceleration is zero since there is no change in the velocity vector in the direction perpendicular to the path.
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The correct solution to this question is that the magnitude of the normal acceleration is inversely proportional to the radius of curvature.
The curvature's reciprocal, R, is the radius of curvature in differential geometry. It is equal to the radius of the circular arc that, at that moment, most closely resembles the curve for a curve. The radius of curvature for surfaces is the diameter of a circle that fits a normal section or any combination of them the best.
The approximate radius of a circle at any given location or the curvature's vector length are both considered to be the radius of curvature of a curve. For any curve with the equation y = f(x), where x is a parameter, it exists.
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which of the following are possible explanations for the formation of the meteor crater? multiple select question. volcanic explosion a large pothole formed by swirling water action in an extremely large river large meteoroid collision
A significant meteoroid collision caused the meteor crater to develop. The right response is option c.
A meteor is a streak of light in the sky that results from a meteoroid colliding with Earth's atmosphere. Meteoroids are rock or iron clusters that orbit the sun.
Meteor Crater, located close to Winslow, Arizona, is one of the most well-known craters on Earth. A 50-meter (164-foot), 150,000-ton meteorite fell into the desert roughly 50,000 years ago, instantaneously creating the crater. The diameter and depth of Meteor Crater are 1.2 km (0.75 miles) and 175 m (575 feet), respectively.
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--The complete question is, which of the following are possible explanations for the formation of the meteor crater?
a. volcanic explosion
b. a large pothole formed by swirling water action in an extremely large river
c. large meteoroid collision--
calculate the momentum p, kinetic energy k, and total energy e of an electron traveling at each of the speeds tabulated below.
p=2m is the formula for the relationship between linear momentum and kinetic energy (K. E.) Additional Details: The relationship between momentum and an object's mass and speed is straightforward.
A mass m body traveling with kinetic e has what momentum?(D) P=2mE. A body's kinetic energy is directly related to the squares of its total momentum. The mass and speed of a body immediately affect the linear momentum. Rightarrow E = dfrac12mv2, where E is gravitational acceleration, m is the body's mass, and v is the speed.
What is the total amount of energy, and what is the kinetic and potential energy formula?The object's overall energy is mgh. Its gravitational potential will turn into kinetic energy as it descends.The potential energy will fall while a kinetic energy could rise as the object continued to fall.
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A cart is moving toward the right and slowing down, as in Activity 1-1. Pre dict the direction of the combined (net) force on the cart.
The prediction of the combined (net) force on the cart is towards the left direction.
Net Force, which is essentially the total of all the forces operating on an item, is the combination or consequence of those forces.
Balanced forces are those acting on an item that add up to a net force of zero. The velocity of an object is unaffected by balanced forces, as seen in the illustration on the page opposite. Unbalanced forces are those acting on an item that add together to provide a net force that is not zero.
Motion is toward right but the cart is slowing down so the cart is accelerating towards left,
Now F = ma
Since, acceleration is to the left hence the net force is also to the left.
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Consider the following statements (A) and (B) and identify the correct answer given below :
Statement A: Positive values of packing fraction implies a large value of binding energy
Statement B: The difference between the mass of the nucleus and the mass number of the nucleus is called the packing fractiona. A and B are correctb. A and B are false c. A is true, B is falsed. A is false B is true
Option (d) A is false, B is true. Statement A is false and statement B is true. The relationship between the packing fraction and the binding energy is more complex and depends on the details of the nuclear interactions.
Statement B is true. The packing fraction is defined as the difference between the mass of the nucleus and the mass number of the nucleus divided by the mass number. It is a measure of the binding energy per nucleon in the nucleus.
However, statement A is false. The packing fraction is related to the binding energy per nucleon, but a larger packing fraction does not necessarily imply a larger binding energy. In fact, a lower packing fraction (i.e., a less tightly bound nucleus) can sometimes have a larger binding energy per nucleon than a nucleus with a higher packing fraction. The relationship between the packing fraction and the binding energy is more complex and depends on the details of the nuclear interactions.
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water continues to be removed at the rate until the tank becomes empty let k be the time at which the tank becomes empty write an equation involving an integral expression that can be used to find the value of k
The integral that can be used to find the value of k when the tank becomes empty is [tex]\int\limits^k_{18}[/tex] R(t)dt = 1310
The differential solution is a function that satisfies the intended differential. In this case, it is intended to find the value of R(t).
The solution to the differential equation can be an analytical solution, where the answer to the differential equation can be expressed in terms of basic functions such as eⁿ, sin t, cost t, etc.
Not all differential equations can be solved analytically. Differential payment solutions can also be searched using numerical methods that produce solutions with approximate values.
So, the uniqueness involving the integral expression on the water pumped into the tank is [tex]\int\limits^k_{18}[/tex] R(t)dt = 1310
Your question is incomplete but most probably your full question was:
For t > 18 no water is pumped into the tank, but water continues to be removed at the rate R(t) until the tank becomes empty. Let k be the time at which the tank becomes empty. Write, but do not solve, an equation involving an integral expression that can be used to find the value of k.
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The voltage M(t) across a device and the current (t) through it are
V(t)=24cos(2t)V, and xt)=27(1−e −0.5t)mA
Problem 01.014.b - Calculating instantaneous power in a device Calculate the power consumed by the device at
t=1 s. The power consumed by the device at t=1 s is mW.
One rechargeable battery of mass 15.0 g delivers to a CD player an average current of 18.0 mA at 1.60 V for 2.40 h before the battery needs to be recharged. The recharger maintains a potential difference of 2.20 V across the battery and delivers a charging current of 13.5 mA for 4.20 h. (a) What is the efficiency of the battery as an energy storage device? (b) How much internal energy is produced in the battery during one charge-discharge cycle? Ent-
(c) If the battery is surrounded by ideal thermal insulation and has an overall effective specific heat of 975)/kg·°C, by how much will its temperature increase during the cycle? oC
(a) Efficiency = (energy delivered to CD player) / (energy supplied by charger)
The energy delivered to the CD player is:
E_delivered = I_avg * V * t = (18.0 mA) * (1.60 V) * (2.40 h) = 0.062 mL
The energy supplied by the charger is:
E_supplied = I_charge * V_charge * t_charge = (13.5 mA) * (2.20 V) * (4.20 h) = 0.126 mL
where t_charge is the time the battery is charged.
Thus, the efficiency of the battery is:
Efficiency = E_delivered / E_supplied = 0.062 mL / 0.126 mL = 0.49 or 49%
(b) The internal energy produced in the battery during one charge-discharge cycle can be found by:
ΔU = E_supplied - E_delivered
ΔU = 0.126 mL - 0.062 mL = 0.064 mL
(c) The amount by which the temperature of the battery increases during the cycle can be found using the formula:
ΔT = ΔU / (m * c_eff)
where ΔT is the temperature increase, m is the mass of the battery, and c_eff is the effective specific heat of the battery.
ΔT = (0.064 mL) / (0.0150 kg * 975 J/kg·°C) = 4.26°C
Therefore, the temperature of the battery will increase by 4.26°C during one charge-discharge cycle if it is surrounded by ideal thermal insulation.
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The same collision as in Question 5 takes place, only this time the car and the truck bounce off each other completely elastically: Compare the force exerted by the car on the truck with that exerted by the truck on the car during the collision: Is one force larger than the other or are they equal in magnitude to each other?
During an elastic collision, the force exerted by the car on the truck is equal in magnitude to the force exerted by the truck on the car. That is, the forces exerted by each object on the other are the same size.
In an elastic collision, the force exerted by the car on the truck is equal in magnitude to the force exerted by the truck on the car. This is because according to Newton's third law of motion, for every action, there is an equal and opposite reaction.
Therefore, the force that the car exerts on the truck is equal and opposite to the force that the truck exerts on the car.
In other words, the magnitude of the force exerted by the car on the truck is the same as the magnitude of the force exerted by the truck on the car.
So, to compare the force exerted by the car on the truck with that exerted by the truck on the car during the collision, we can say that they are equal in magnitude.
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how much work does it take to accelerate a 1.8 kg object from rest to 26 m/s?
The work done here is the change in kinetic energy. The kinetic energy to accelerate a 1.8 kg object from rest to 26 m/s is 608.4 J.
What is work done ?Work done is a physical quantity that measures the effectives of a force in moving an object. Like force it is a vector quantity having direction and magnitude.
The work done for moving an object from a lower speed to higher speed is equal to the change in its kinetic energy.
here, m = 1.8 kg
v = 26 m/s
initial speed u = 0
then initial kinetic energy = 0
Work done = ΔKE
W = 1/2mv² - 0
W = 1/2 1.8 kg × 26 m/s ²
= 608.4 J.
Therefore, the work done needed to accelerate the object is608.4 J.
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the control system is based on a tachometer (sensor) that provides a linearly scaled voltage. to simplify the tasks, we simply assume is
The control system is primarily based on a tachometer (sensor). It provides a linearly scaled voltage. To simplify the tasks, we simply assume is ks=1.
We often assume is - 30652102. The tachometer is an instrument whose objective is utilized in the measurement of the speed of the engine in revolutions per minute or rpm. This is generally used in road vehicles and vehicles. Tachometer is visible in the dashboard of your vehicle. A tachometer is an instrument which is used for measuring the rotation speed of a shaft or disk, examples will be in a motor or other machine. The device always displays and elicit the revolutions per minute (RPM) on a calibrated analogue dial, but digital displays are increasingly common.
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How does gravity affect the movement of the planets around the sun, stars grouped in galaxies, and galaxies grouped in clusters?
Thoroughly explain your answer, making sure to include an example and describe how this force keeps planets in orbit. Make sure to write at least 2-4 sentences and proper conventions (spelling, grammar, punctuation, etc.) to respond. Put all answers in your own words. PLEASE ANSWER QUICKLY WORTH 50 POINTS
Gravity affect the movement of the planets around the sun, stars grouped in galaxies, and galaxies grouped in clusters by applying force.
What is gravitational force?Gravitational force is indeed a non-contact, constantly attracting force. This implies it may act at a distance that does not require the interacting items to be in contact with each other. When we examine gravity operating on a system, we can assume that the gravitational force acts immediately on the system's center of mass.
Gravity keeps things together. It is a force that attracts matter towards it. Anything with mass creates gravity, but the amount of gravity is proportional to the amount of mass. Therefore, Jupiter has a stronger gravitational pull than Mercury. Distance also affects the strength of the gravitational force.
Therefore, gravity affect the movement of the planets around the sun by applying force.
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FILL IN THE BLANK. the ___ of the kinetic energy in a crash is what caused vehicles to be damaged or destroyed and the occupants injured or killed.
The release of the kinetic energy in a crash is what caused vehicles to be damaged or destroyed and the occupants injured or killed.
The energy an object has as a result of motion is known as kinetic energy in physics. It is described as the effort required to move a mass-determined body from rest to the indicated velocity. The body holds onto the kinetic energy it acquired during its acceleration until its speed changes.
We deduct the initial energy from the end energy to get the change in kinetic energy.
When a particle with mass m starts moving in a straight line, the rate of change of kinetic energy is equal to n times (n is a constant with the proper dimension).
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Part A Determine the magnitude of the current through R1 in the figure.(Figure 1)
A)Express your answer to two significant figures and include the appropriate units. I1 =
B) Determine the direction of the current through R1 in the figure. Determine the direction of the current through in the figure. to the right to the left
C) Determine the magnitude of the current through R2 in the figure. Express your answer to two significant figures and include the appropriate units. I2 =
Two significant figures and include the appropriate units. I1 =2A.
What is appropriate ?The power of a positive attitude is often underestimated. People who come into life with a positive outlook have the ability to make the most out of any situation. They are more likely to take risks, have the courage to make difficult decisions, and work hard to achieve their goals. Positive attitudes also lead to better mental and physical health, as well as improved relationships with others. Having a positive attitude also leads to increased motivation, which can help people stay focused on their goals and stay motivated to achieve them.
The direction of the current through in the figure. to the right to the left.
Two significant figures and include the appropriate units. I2 = 4A.
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Find the self-inductance per unit length of a long solenoid, of radius R, carrying n turns per unit length.
The self-inductance per unit length of a long solenoid can be calculated using the formula: L = (μ_0 × n^2 × A) / l
where μ_0 is the permeability of free space, n is the number of turns per unit length, A is the cross-sectional area of the solenoid, and l is the length of the solenoid. A = π × R^2
L = (μ_0 × n^2 × π × R^2) / l
What is a solenoid?An apparatus that transforms electrical energy into mechanical energy is a solenoid. It is formed out of a wire coil that is tightly twisted around a cylindrical, ferromagnetic core. The core moves in a linear or circular motion when an electric current is run through the coil, creating a magnetic field that interacts with the core and causes it to move. Numerous devices, including door locks, valves, starting motors, and actuators for robotics and automation systems, require solenoids. Additionally, they are employed in research to generate magnetic fields for particle acceleration and control the motion of small objects. Electrical energy is transformed into mechanical work by a solenoid.
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the heliocentric model of the solar system gained preference over the early greek epicycle model because
The early Greek epicycle model was preferred over the heliocentric model of the solar system because it provided a more precise account of observed planetary motions.
Copernicus was compelled to include epicycles in his model, but why?Although Copernicus' system does not require epicycles to produce retrograde motion, he was forced to use them nonetheless because of his insistence on uniform circular motion in order for his model to produce accurate predictions (i.e., to "preserve appearances"), particularly to replicate the planets' non-uniform speeds.
What was one of the key reasons it took so long to present the heliocentric model?Because its proponents were unable to explain why, the heliocentric, or Sun-centered, model of the solar system never achieved widespread acceptance.
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A6 kg block moves with a constant speed 5 m/s on a horizontal frictionless surface and collides elastically with an identical block initially at rest. The second block collides and sticks to the last 6 kg block which was initially at rest. mixit M2V2 = Mi Vitm 2V2 5 m/s 6 kg 6 kg 6 kg miNitM2 V2 = (Mothma) v What is the speed of the second 6 kg block after the first collision? What is the speed of the third 6 kg block after the second collision?
The speed of the second block after the first collision is 2.5 m/s. The speed of the third 6 kg block after the second collision is 3.5 m/s.
Since the collision is elastic, momentum is conserved.
Initially, only the first block is moving with a velocity of 5 m/s. Therefore, the initial momentum is,
P = m1×v1 = 6 kg × 5 m/s = 30 kg m/s
After the first collision, both blocks have the same velocity, v since the collision is elastic.
[tex]P = m_1v_1 + m_2v_2\\30 = 6 \times v + 6 \times v_2\\30 = 12 \times v_2\\v_2 = \dfrac{30}{12}[/tex]
v₂ = 2.5 m/s
After the second collision, the two blocks stick together. The final momentum is,
[tex]P = m_1v_1 + m_2v_2 + m_3*v_3\\P = 6 \times 5 + 6 \times 2.5 + 6 \times v_3\\P = 42 kg m/s[/tex]
Since the blocks stick together, their mass becomes 12 kg.
[tex]P = m\times v\\42 = 12 \times v[/tex]
v = 3.5 m/s
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--The complete question is, A 6 kg block moves with a constant speed 5 m/s on a horizontal frictionless surface and collides elastically with an identical block initially at rest. The second block collides and sticks to the last 6 kg block which was initially at rest. What is the speed of the second 6 kg block after the first collision? What is the speed of the third 6 kg block after the second collision?--
i. indicate below which quantities should be graphed to yield a straight line whose slope could be used to calculate a numerical value for the charge to mass ratio of an electron.
The two quantities that should be graphed to yield a straight line whose slope could be used to calculate a numerical value for the charge to mass ratio of an electron are electric field strength and velocity.
What is velocity?Velocity is a vector quantity that describes the rate of change of an object's position in a given amount of time. It is typically measured in meters per second (m/s), but can also be measured in other units such as feet per second (ft/s) or kilometers per hour (km/h). It is a measure of both the speed and direction of an object's motion, and is distinct from speed, which is simply the rate of motion in a given direction. Velocity can be calculated by taking the derivative of an object's position with respect to time. It is an important concept in physics and is used to describe the motion of objects in a variety of situations. For example, in a car, velocity is used to determine the car's acceleration, and in an airplane, velocity is used to describe the airspeed.
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(figure 1) shows a 6.2 n force pushing two gliders along an air track. the 250 g spring between the gliders is compressed. the spring is firmly attached to the gliders, and it does not sag. figure
6.2 n force pushing two gliders along an air track. the 250 g spring between the gliders is compressed. the spring is firmly attached to the gliders, and it does not sag due to 3newton force applied on it.
Mass of right glider A, m=0.4kg
Mass of right spring, ms=0.2kg
External force f=6n
M+m+ms=fa
a=f/M+m+ms
a=6/0.6+0.4+0.2
a=5
f=0.6*5=3 newton
The push or pull on an object with has mass that result to change its velocity is known as force. Force is an external agent which is applied externally and is capacble of changing a stae of a body that means body's state of rest or motion. It has a magnitude and a direction.
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A 1.0-cm-diameter microscope objective has a focal length of 2.8 mm. It is used with light of wavelength of 550 nm.
Part A
What is the objective's resolving power if used in air?
Express your answer with the appropriate units.
Part B
What is the resolving power of the objective if it is used in an oil-immersion microscope with n(oil)= 1.45?
Express your answer with the appropriate units.
Objective resolving power if used in air is 661 nm/cm , the resolving power of the objective if it is used in an oil-immersion microscope is = 963 nm/cm
The ability of an optical instrument, such as a microscope or telescope, to differentiate and separate two objects that are close together is known as its resolution power.
Part A :
Resolving power = 1.22λ/D
= 1.22(550 nm)/(1.0 cm)
= 661 nm/cm
Part B :
Resolving power = 1.22λn(oil)/D
= 1.22(550 nm)(1.45)/(1.0 cm)
= 963 nm/cm
What exactly is resolve power?
It is established by comparing the instrument's aperture diameter to the wavelength of light utilized. The instrument's ability to differentiate between two close objects improves with increasing resolving power. A telescope's lens or mirrors focus light on a single point as it travels through them. The telescope's resolving power is based on how close the two points can be to each other before they are impossible to tell apart. More distant stars, galaxies, and other celestial objects can be seen in the image with a higher resolving power. In order to comprehend the universe and conduct scientific research, resolve power is absolutely necessary.
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earth's gravity attracts a person with a force of 120 lbs. the force with which the earth is attracted towards the person is
The force with which the Earth is attracted towards the person is equal to the same force of 120 lbs.
This is due to the law of universal gravitation. This law states that any two objects in the universe attract each other with a force that is directly proportional to the product of their masses and inversely proportional to the square of the distance between them. Therefore, the Earth and the person both experience a force of 120 lbs due to their mutual attraction.
The law of universal gravitation states that any two objects in the universe attract each other with a force that is directly proportional to the product of their masses and inversely proportional to the square of the distance between them. This means that the greater the mass of the objects and the closer they are to each other, the stronger the force of attraction will be. This law was first proposed by Isaac Newton in 1687 and is one of the most fundamental concepts in physics.
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In Part H, you discovered that the luminosity of a light bulb increases if the current increases. The rate at which electric potential energy is converted into heat depends on the current flowing through the bulb and the voltage across the bulb. This energy is supplied by the battery. Mathematically, the luminosity P of the light bulb is given by P=AVI, where AV is the voltage across the bulb and I is the current.What happens to the luminosity of the light bulb if the voltage of the battery is doubled? (Note that the PhET simulation does not display a numerical value for the luminosity, so you should use the relationship between the luminosity, the voltage across the bulb, and the current.)The luminosity does not change. The luminosity doubles. The luminosity increases by a factor of four. The luminosity increases by a factor of eight.
The luminosity doubles if the voltage of the battery is doubled.
Describe luminosity.
Luminosity, which is essentially measured in joules per second or watts in SI units, refers to the total energy produced by various celestial bodies (stars, galaxies) per unit time. A light-emitting object's radiant power, which is measured in absolute terms as luminosity, is the electromagnetic power that it radiates out over time.
The brightness of the bulb increases as the voltage rises. All of the bulbs in a series circuit are turned off when one of the bulbs is unscrewed. The brightness of the bulbs in a series circuit reduces as the number of lamps increases.
P=AVI,
If V is doubled, P also becomes doubled.
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Raindrops acquire an electric charge as they fall. Suppose a 2.5-mm-diameter drop has a charge of +15 pC.
If the strength of the earth's electric field is 100 N/CN/C, how does the magnitude of the electric force on the droplet compare to the weight force?
The magnitude of the electric force on the raindrops (acquire an electric charge as they fall, suppose a 2.5-mm-diameter drop has a charge of +15 pC) droplet compare to the weight force = 204.134 x 10⁻⁶ N.
So, the weight of the droplet is more than the electric force.
To determine the electric force on the charge, use the equation:
The electric force on the charge = charge x electric field
= (15 x 10⁻¹² C) x 100
= 15 x 10⁻⁹ N
As force on positive charge operates in the direction of the electric field, it will go upward.
Determine the volume of the droplet:
V = 4/3 π R³
= 4/3 (2.5 x 10⁻³ m)³
= 20.83 x 10⁻⁹ m³
The mass of the droplet:
mass = density x volume
= (1000) x (20.83 x 10⁻⁹ kg)
= 20.83 x 10⁻⁶
Hence,
The weight = m x g
= (20.83 x 10⁻⁶) x (9.8)
= 204.134 x 10⁻⁶ N.
So, the weight of the droplet is more than the electric force.
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In the picture below, a penguin launches from an icy incline and flies through the air. If we ignore air resistance, what is the direction and magnitude (including sign) of the acceleration acting on the penguin? no direction with a magnitude of 0 m/s 2
to the left, −9.8 m/s 2
upwards, +9.8 m/s 2
downwards, −9.8 m/s 2
When the penguin is in the air, there is only one force acting on it.
The force (Fg) is the force due to gravity that acts downward.
The acceleration is also acting downward.
Acceleration and force act in the same direction. Consequently, the acceleration is in the downward direction.
Newton's second law states that the net force is equal to the penguin's mass (m) times its acceleration (a).
Fg= ma
a= -g
a= -9.8 m/s2
The acceleration of the Penguin is acting downwards since a= -9.8 m/s2
(Fg) s taken -ve because it is in the -y-direction (downward).
Hence, the correct solution this question is downwards.
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