The sketch that is true is given in option (c). a weak vortex containing vorticity of strength 10 [1/sec] lying along a vertical axis is introduced upstream of the bump.
A vortex is a region in a fluid in which the flow revolves around an axis line, the fluid motion in a vortex is smooth, continuous, and follows a curved path around the axis. In this problem, a weak vortex containing vorticity of strength 10 [1/sec] lying along a vertical axis is introduced upstream of the bump. The flow is two-dimensional, uniform, and slow enough that the water surface remains flat. Ignoring viscous effects, the water flow from right to left passes over a bump. We have to find the correct sketch of the flow.
In a 2D uniform flow of water passing over a bump, the streamlines deflect slightly in front of and behind the bump. They converge before the bump and diverge behind the bump, forming eddies that eventually dissipate. A vortex in the flow will also form an eddy, which will interact with the eddies from the bump. This will result in a complex flow pattern. The sketch that shows the complex flow pattern and a weak vortex upstream of the bump is option (d). Hence, the correct answer is option (c).
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a system consisting of blocks, a light frictionless pulley, a frictionless incline, and very light connecting wires is shown in the gure. the 9.0-kg block accelerates downward when the system is released gently from rest. what is the tension in the wire connecting the two blocks on the incline?
The tension in the wire connecting the two blocks on the incline is approximately 10.8 N.
Since the system is released gently from rest, can assume that the acceleration of both blocks is the same and is given by:
a = (m1-m2)g / (m1+m2)
where m1 and m2 are the masses of the two blocks and g is the acceleration due to gravity.
Substituting the given values, can get:
a = (9.0 kg - 4.0 kg) * 9.81 m/s^2 / (9.0 kg + 4.0 kg) ≈ 3.08 m/s^2
Since the 4.0 kg block is on an incline, its weight can be resolved into components parallel and perpendicular to the incline. The perpendicular component is balanced by the normal force from the incline, so the net force acting on the 4.0 kg block is:
Fnet = m2g sin θ - T
where θ is the angle of the incline and T is the tension in the wire connecting the two blocks.
Using Newton's second law, can write:
Fnet = m2a
m2g sin θ - T = m2a
4.0 kg * 9.81 m/s^2 * sin 30° - T = 4.0 kg * 3.08 m/s^2
T ≈ 10.8 N
Therefore, the tension in the wire connecting the two blocks on the incline would be approximately 10.8 N.
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you are designing an electronic circuit which is made up of 170 mg of silicon. the electric current adds energy at a rate of 8 mw. the specific heat of silicon is 705 j/kg k. 1) if no heat can move out of the electronic circuit, at what rate does its temperature increase?
The temperature of the electronic circuit increases at a rate of 3.84 × 10^11 K/s if no heat moves out of the electronic circuit.
When designing an electronic circuit that is made up of 170 mg of silicon, the electric current adds energy at a rate of 8 MW. Silicon's specific heat is 705 J/kg K.
The question demands to know the rate of temperature increase if no heat can move out of the electronic circuit formula used to calculate the temperature rise of silicon isΔT= (Q / m) × (1/Cp)where
ΔT = change in temperature,
Q = heat input,
m = mass, and
Cp = specific heat capacity of silicon
Given values are mass (m) = 170 mg,
Q = 8 MW, and
Cp = 705 J/kg K.
Converting 170 mg to kg:170 mg
= 170 × 10^-6 kg = 1.7 × 10^-4 kg
Therefore,Q = 8 MW = 8 × 10^6 J/s
The formula becomesΔT = (8 × 10^6 / 1.7 × 10^-4) × (1/705)
ΔT = 3.84 × 10^11 K/s
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A tennis ball is a hollow sphere with a thin wall. It is set rolling without slipping at 4.14 m/s on a horizontal section of a track as shown in the figure below. It rolls around the inside of a vertical circular loop of radius r = 47.6 cm. As the ball nears the bottom of the loop, the shape of the track deviates from a perfect circle so that the ball leaves the track at a point h = 15.0 cm below the horizontal section. (a) Find the ball's speed (in m/s) at the top of the loop. m/s (b) Find its speed (in m/s) as it leaves the track at the bottom of the diagram. m/s (c) What If? Suppose that static friction between ball and track were negligible so that the ball slid instead of rolling. Describe the speed of the ball at the top of the loop in this situation. -higher -lower -the same The ball never makes it to the top of the loop.
The speed of the ball as it leaves the track at the bottom of the diagram is 2.34 m/s.(c) If the static friction between the ball and track were negligible so that the ball slid instead of rolling, the speed of the ball at the top of the loop would be lower. This is because the ball would lose some of its kinetic energy due to friction with the track, resulting in a lower speed at the top of the loop.
When answering questions on the Brainly platform, it is important to be factually accurate, professional, and friendly. It is also important to be concise and provide relevant details to support your answer. Typos and irrelevant parts of the question should not be ignored, as they can impact the accuracy of your answer.
In this specific question, the given information is:A tennis ball is a hollow sphere with a thin wall. It is set rolling without slipping at 4.14 m/s on a horizontal section of a track as shown in the figure below. It rolls around the inside of a vertical circular loop of radius r = 47.6 cm. As the ball nears the bottom of the loop,
the shape of the track deviates from a perfect circle so that the ball leaves the track at a point h = 15.0 cm below the horizontal section.The answer to each part of the question is given below:
(a) The speed of the ball at the top of the loop can be found using the principle of conservation of energy. The initial kinetic energy of the ball is given as:Initial Kinetic Energy = (1/2)mv²where m is the mass of the ball and v is its velocity.
Since the ball is set rolling without slipping, the rotational kinetic energy is also given as:(1/2)Iω²where I is the moment of inertia of the ball and ω is its angular velocity.Since the ball is not slipping, the velocity can be related to the angular velocity as:
v = rωwhere r is the radius of the loop.Using the conservation of energy principle, we can write:Initial Kinetic Energy + Initial Potential Energy = Final Kinetic Energy + Final Potential Energywhere potential energy is given as mgh, where h is the height above the reference level.Using this equation, we get:v² = 2gh + r²ω²Substituting ω with v/r and simplifying,
we get:v = √(2gh + r²(v/r)²)The ball reaches the top of the loop when h = 2r, which gives:v = √(4gr + r²v²/r²) = r√(4g/r + v²)Plugging in the values, we get:v = √(4*9.81*0.476 + 4.14²) = 5.67 m/s
Therefore, the speed of the ball at the top of the loop is 5.67 m/s.(b) The speed of the ball as it leaves the track at the bottom of the loop can also be found using the principle of conservation of energy.
At the bottom of the loop, the ball has lost some of its gravitational potential energy due to the deviation of the track from a perfect circle. Therefore, we can write:Initial Kinetic Energy + Initial Potential Energy = Final Kinetic Energy + Final Potential Energywhere the final potential energy is mgh - mv²/2g,
where h is the height above the reference level, and v is the velocity of the ball.Using this equation, we get:v² = 2gh - 2gh (r/h) + r²/r - r²/h²Substituting the values, we get:v = √(2*9.81*0.15 - 2*9.81*0.476 + 0.476 - 0.476²/0.15²) = 2.34 m/s
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why would it be a dangerous mistake for a bungee jumper to use a steel cable rather than an elastic cord?
Using a steel cable instead of an elastic cord for bungee jumping is a dangerous mistake due to the differences in elasticity, flexibility, weight, and comfort between the two materials. The elastic cord is specifically designed to ensure a safe and enjoyable bungee jumping experience, while a steel cable could lead to serious injuries.
A bungee jumper using a steel cable instead of an elastic cord would be a dangerous mistake for several reasons:
1. Absorption of impact force: Elastic cords are specifically designed to stretch and absorb the force of the jumper's fall, reducing the risk of injury. Steel cables, on the other hand, do not have the same elasticity, causing a sudden stop that could result in severe injuries.
2. Flexibility: Elastic cords are more flexible than steel cables, allowing for smoother jumps and minimizing the chances of getting tangled or twisted during the jump.
3. Weight: Steel cables are much heavier than elastic cords, making them more difficult to handle and transport. Additionally, the increased weight could affect the jumper's freefall speed, potentially increasing the risk of injury.
4. Comfort: An elastic cord provides a smoother, more comfortable experience for the jumper, while a steel cable would cause a jarring, abrupt stop that could be extremely uncomfortable and potentially harmful.
In summary, using a steel cable instead of an elastic cord for bungee jumping is a dangerous mistake due to the differences in elasticity, flexibility, weight, and comfort between the two materials. The elastic cord is specifically designed to ensure a safe and enjoyable bungee jumping experience, while a steel cable could lead to serious injuries.
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a lump of putty and a rubber ball have equal mass. both are thrown with equal speed against a wall. the putty sticks to the wall. the ball bounces back at nearly the same speed with which it hit the wall. which object experiences the greater momentum change? a lump of putty and a rubber ball have equal mass. both are thrown with equal speed against a wall. the putty sticks to the wall. the ball bounces back at nearly the same speed with which it hit the wall. which object experiences the greater momentum change? the putty experiences the greater momentum change. not enough information is given to determine the answer. the ball experiences the greater momentum change. they both experience the same momentum change
The putty experiences the greater momentum change.
Momentum is a vector quantity that represents the motion of an object. It is given by the product of an object's mass and velocity. The momentum change of an object is equal to the force applied to it, multiplied by the time it takes to apply that force. In other words, the greater the force applied or the longer the force is applied, the greater the momentum change.
This is because momentum change is equal to the final momentum minus the initial momentum, and the final momentum of the putty is zero since it sticks to the wall. Therefore, the momentum change of the putty is equal to its initial momentum, which is the same as the initial momentum of the ball. However, the final momentum of the ball is in the opposite direction to its initial momentum, so its momentum change is less than that of the putty.
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if light consisted of classical particles and was sent through a double slit, the pattern on the wall would be which of the following? a single bright fringe dependent on the size of the slit an interference pattern of light and dark fringes a large round dot a bright blob with no distinct shape if light is actually a wave that only behaves like a particle in certain situations then, when light passes through a double slit, the pattern on the wall would be which of the following? a single bright fringe dependent on the size of the slit an interference pattern of light and dark fringes a large round dot two lines proportional to the shape of the two slits
When light passes through a double slit, the pattern on the wall would be an interference pattern of light and dark fringes.
If light consisted of classical particles and was sent through a double slit, the pattern on the wall would be a bright blob with no distinct shape. If light is actually a wave that only behaves like a particle in certain situations then, when light passes through a double slit, the pattern on the wall would be an interference pattern of light and dark fringes.What is a double slit?A double-slit experiment is an experiment that demonstrates the wave-like nature of light. Light passes through two small slits that are positioned close together in a double-slit experiment. Two waves emerge from the two slits and interact with each other, producing an interference pattern on a screen. The pattern will consist of a series of alternating bright and dark fringes, known as interference fringes.
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is an edge view of a 2.0 kg square loop, 2.5 m on each side, with its lower edge resting on a frictionless, horizontal surface. a 25 a current is flowing around the loop in the direction shown. what is the strength of a uniform, horizontal magnetic field for which the loop is in static equilibrium at the angle shown?
The strength of the uniform, horizontal magnetic field for which the loop is in static equilibrium at the angle shown is 0.32T.
Let's start by finding the torque acting on the square loop due to the magnetic field. = sinwhere is the torque, is the magnetic field strength, is the current, is the area of the square loop, and is the angle between the plane of the loop and the magnetic field.
The square loop is in static equilibrium, which means the net force and net torque acting on it are zero. Since the loop is resting on a frictionless horizontal surface, the normal force and weight of the loop will cancel each other out.
The torque acting on the square loop due to the magnetic field is = sin= 25A × (2.5m)² × sin(60°)= 125JThe torque due to the magnetic field is balanced by an equal and opposite torque due to the tension in the wire. The tension in the wire is acting at an angle of 45° to the horizontal, so we can resolve it into horizontal and vertical components.
The horizontal component is equal to the magnetic torque, and the vertical component is equal to the weight of the loop.Using trigonometry, we can find the tension in the wire.Tcos(45°) = T = /cos(45°)= 125J/cos(45°)= 177JThe weight of the square loop is = = 2.0kg × 9.8m/s²= 19.6NTherefore, the vertical component of the tension in the wire is equal to the weight of the square loop.
Tsin(45°) = Tsin(45°) = 19.6NT = 27.7NThe horizontal component of the tension in the wire is equal to the magnetic torque.Tcos(45°) = Tcos(45°) = 125JT = 177JThe magnetic field strength is = /(sin)= 125J/(25A × (2.5m)² × sin(60°))= 0.32TTherefore, the strength of the uniform, horizontal magnetic field for which the loop is in static equilibrium at the angle shown is 0.32T.
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the distance from earth to the red supergiant betelgeuse is approximately 643 light-years. if it were to explode as a supernova, it would be one of the brightest stars in the sky. right now, the brightest star other than the sun is sirius, with a luminosity of 26 lsun and a distance of 8.6 light-years. how much brighter in our sky than sirius would the betelgeuse supernova be if it reached a maximum luminosity of 1.0*10^10 lsun? 13
Let us assume L be the luminosity of Betelgeuse and L₁ be the luminosity of Sirius.Suppose d is the distance between Earth and Sirius, and D is the distance between Earth and Betelgeuse.
Then, the equation for the luminosity (brightness) would be:L/L₁ = (d/D)²Since the luminosity of Sirius (L₁) is 26 Lsun and the distance from the Earth to Sirius (d) is 8.6 light-years. Thus, the equation becomes:L/26 = (d/D)²The distance from Earth to Betelgeuse (D) is approximately 643 light-years.
If Betelgeuse has a maximum luminosity of 1.0 * 10¹⁰ Lsun, then the equation for Betelgeuse would be:L/1.0 * 10¹⁰ = (d/643)²Substitute the value of L from equation (1) in equation (2):26/1.0 * 10¹⁰ = (8.6/643)²L = (26 × (643/8.6)²) * 1.0 * 10¹⁰L = 2.10 * 10³⁰
lsunBetelgeuse supernova's brightness in our sky than Sirius supernova would be:Betelgeuse supernova's brightness = L / L₁Betelgeuse supernova's brightness = (2.10 * 10³⁰) / 26Betelgeuse supernova's brightness = 8.08 * 10²⁹ times brighter than Sirius. Hence, the correct option is (D) 8.08 × 10²⁹.
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determine the volume change in ft3, when 1 lb of water, initially saturated liquid, is heated to saturated vapor while pressure remains constant at 450 lbf/in2
The volume change will be;6.80465 ft3/lb. (which is equal to 6.80465 ft3). The volume change in ft3, when 1 lb of water, initially saturated liquid, is heated to saturated vapour while pressure remains constant at 450 lbf/in2 is 6.80465 ft3.
When 1 lb of water, initially saturated liquid, is heated to saturated vapour while pressure remains constant at 450 lbf/in2, the volume change in ft3 can be determined as follows;
Firstly, use the given information to calculate the specific volume of water using the table of the properties of superheated water from the steam tables at 450 lbf/in2. The specific volume of water is calculated to be 0.01615 ft3/lb.
Then, determine the specific volume of the water in the vapour state at 450 lbf/in2 using the steam tables. It is equal to 6.8208 ft3/lb. The difference in the specific volume of the water in its two states (initially saturated liquid to saturated vapour) is then determined to be 6.8208 - 0.01615 = 6.80465 ft3/lb.
Since 1 lb of water has been heated from a saturated liquid state to a saturated vapour state, the change in volume will be equal to the difference in the specific volumes of the water in its two states.
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A car travels 500 km in 3.5 hrs
A) What is it’s average speed?
B) How far will it travel in 5 hr?
C) How long will it take to travel 750 km?
Answer:
A) The average speed of the car is given by the formula:
average speed = distance / time
where distance is measured in kilometers (km) and time is measured in hours (hr).
In this case, the distance is 500 km and the time is 3.5 hrs. Therefore,
average speed = 500 km / 3.5 hrs = 142.857 km/hr (rounded to three decimal places)
Therefore, the average speed of the car is 142.857 km/hr.
B) To find out how far the car will travel in 5 hours, we can use the average speed calculated above.
distance = average speed x time
where time is measured in hours (hr).
In this case, the time is 5 hrs. Therefore,
distance = 142.857 km/hr x 5 hrs = 714.285 km (rounded to three decimal places)
Therefore, the car will travel approximately 714.285 km in 5 hours.
C) To find out how long it will take to travel 750 km, we can use the average speed calculated above.
time = distance / average speed
where distance is measured in kilometers (km) and average speed is measured in kilometers per hour (km/hr).
In this case, the distance is 750 km. Therefore,
time = 750 km / 142.857 km/hr = 5.25 hrs (rounded to two decimal places)
Therefore, it will take approximately 5.25 hours to travel 750 km
A camper walked from point A to point B taking the path shown by the dotted line. What is the approximate distance the camper walked? a. 2.0 miles downhill b. 30 miles downhill c. 2.0 miles uphill d. 30 miles uphill
Therefore, the most reasonable answer is (b) 30 miles downhill distance.
What does the calculation for distance mean?The space between two parallel lines is also known as their perpendicular distance. Consider the two parallel lines y = mx + c1 and y = mx + c2 to be one line. Let d represent the separation between the two lines. The following formula can be used to determine the minimum distance between two non-intersecting lines: d = | C 1 − C 2 | A 2 + B 2.
What are distance, its SI measurement, and its definition?The metre is the metric measure of length. Long distances can be counted in kilometers, while short distances can be gauged in centimetres (cm). (km). For instance, you might estimate the distance in centimetres between the bottom and top of a piece of paper and the kilometres between your home and school.
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9. a 6 kw lathe can move an iron block at a constant speed by applying a force of 5.2 kn. find the speed of the block.
The speed of the iron block is approximately 1.15 m/s.
To find the speed of the iron block, we can use the formula for power, which is:
Power = Force × Speed
We are given the power (6 kW) and the force (5.2 kN), so we can solve for the speed.
Step 1: Convert the given values to the same unit.
Power: 6 kW = 6,000 W
Force: 5.2 kN = 5,200 N
Step 2: Rearrange the formula to solve for speed.
Speed = Power / Force
Step 3: Plug in the values and calculate the speed.
Speed = 6,000 W / 5,200 N = 1.1538461538461539 m/s
Therefore, the speed of the iron block is approximately 1.15 m/s.
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Describe a type of force actung at a distance where the force is not gravitational
Answer:
Explanation:
One example of a force acting at a distance that is not gravitational is the electromagnetic force. The electromagnetic force is responsible for the interaction between electrically charged particles, such as protons and electrons. This force can attract or repel particles depending on their charges, and it can act over long distances. For example, the electromagnetic force is responsible for the attraction between the positively charged nucleus and negatively charged electrons in an atom, as well as the interaction between magnets.
when you touch a warm pot on the stove, group of answer choices thermal energy flows from your hand to the pot. work flows from the pot to your hand. electric energy flows from the pot to your hand. thermal energy flows from the pot to your hand. work flows from your hand to the pot.
When you touch a warm pot on the stove, thermal energy flows from the pot to your hand.
Thermal energy transfer occurs through a process called conduction. When you touch the warm pot, the heat energy from the pot moves to your hand because of the difference in temperature between the two objects.
The molecules in the pot vibrate at a higher rate due to their higher temperature, and when they come into contact with the molecules in your hand, they transfer some of their energy, causing the molecules in your hand to vibrate faster and increase in temperature.
This continues until the temperatures of the pot and your hand reach equilibrium, or the same temperature.
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the image of a plant is 4.0 cm from a concave spherical mirror having a radius of curvature of 10 cm. where is the plant relative to the mirror? question 5 options: 2.2 cm in front of the mirror 4.4 cm in front of the mirror 9.0 cm in front of the mirror 1.0 cm in front of the mirror 20 cm in front of the mirror
The image of the plant is 4.0 cm from a concave spherical mirror with a radius of curvature of 10 cm. The plant is 4.4 cm in front of the mirror relative to the mirror. Here option B is the correct answer.
To determine the position of the plant relative to the concave spherical mirror, we can use the mirror formula:
1/f = 1/do + 1/di
where f is the focal length of the mirror, do is the object distance (distance of the plant from the mirror), and di is the image distance (distance of the image from the mirror).
We are given that the radius of curvature of the mirror, R, is -10 cm (negative sign indicates concave mirror) and the image distance, di, is -4.0 cm (negative sign indicates that the image is formed on the same side of the mirror as the object). We can find the focal length using the relation f = R/2, which gives f = -5 cm.
Substituting the given values into the mirror formula, we get:
1/-5 = 1/do + 1/-4
Simplifying, we get:
1/do = 1/-5 - 1/-4
= -0.2
Taking the reciprocal of both sides, we get:
do = -5 cm
The negative sign indicates that the plant is located 5 cm in front of the mirror, on the same side as the object. However, the question asks for the position relative to the mirror, so the answer is:
B - 4.4 cm in front of the mirror (obtained by subtracting the radius of curvature from the object distance: 5 - 10 = -4.4 cm, which means the plant is 4.4 cm in front of the mirror)
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Complete question:
The image of a plant is 4.0 cm from a concave spherical mirror having a radius of curvature of 10 cm. where is the plant relative to the mirror? question 5 options:
A - 2.2 cm in front of the mirror
B - 4.4 cm in front of the mirror
C - 9.0 cm in front of the mirror
D - 1.0 cm in front of the mirror
E - 20 cm in front of the mirror
a battery made up of two cells joined in series supply current to an external resistance of each cell is 0.6v and 3 ohms respectively. calculate 1 the current flowing in the external resistance 2 the thermal potential difference 3 the lost voltage
Answer:
We have a battery here, composed of two cells joined in series, which is supplying current to an external resistance. The voltage of each cell is given as 0.6 volts and the resistance is 3 Ohms. In order to solve the problem, we need to calculate three things: the current flowing in the external resistance, the thermal potential difference and the lost voltage.
First, let's calculate the current flowing in the external resistance. Using Ohm's Law, we can find the current as I = V/R, where V is the total voltage of the battery (i.e. 2*0.6=1.2V) and R is the external resistance, which is given as 3 Ohms. Therefore, I = 1.2/3 = 0.4 amps.
Next, let's calculate the thermal potential difference. This is the amount of heat generated by the current flowing through the external resistance, and is given by the formula P = I^2*R, where P is the power, I is the current, and R is the resistance. Plugging in the values, we get P = 0.4^2*3 = 0.48 watts. Since we know that power is equal to voltage times current (P = VI), we can rearrange the formula to get V = P/I, which gives us V = 0.48/0.4 = 1.2 volts.
Finally, we need to calculate the lost voltage. This is the voltage drop that occurs across each cell due to internal resistance. We can use the formula V_lost = I*R_int, where R_int is the internal resistance. Since we know the current and the resistance of the external load, we can use the total voltage of the battery to find the internal resistance. Recall that the total voltage of the battery is 1.2V. Therefore, V_lost = I*R_int, or R_int = V_lost/I. We know that the voltage drop across each cell is equal, so we can divide the lost voltage by 2 to get the voltage drop across each cell. Therefore, V_cell = V_lost/2 = (0.4)*(R_int/2). Plugging in the values, we get V_cell = 0.4*(1.2-0.4*3)/2 = 0.06 volts.
In summary, the current flowing in the external resistance is 0.4 amps, the thermal potential difference is 1.2 volts, and the lost voltage across each cell is 0.06 volts.
what is the angular momentum of a 0.270-kg ball revolving on the end of a thin string in a circle of radius 1.35 m at an angular speed of 10.4 rad/s?
the angular momentum of a 0.270-kg ball revolving on the end of a thin string in a circle of radius 1.35 m at an angular speed of 10.4 rad/s is approximately 5.11 kg*m²/s.
The angular momentum (L) of an object can be calculated using the formula L = Iω, where I is the moment of inertia and ω is the angular speed. For a point mass (like the ball) moving in a circle, the moment of inertia (I) can be calculated using the formula I = mr², where m is the mass and r is the radius of the circle.
In this case, the mass (m) of the ball is 0.270 kg, the radius (r) of the circle is 1.35 m, and the angular speed (ω) is 10.4 rad/s.
First, calculate the moment of inertia (I):
I = mr² = (0.270 kg) * (1.35 m)² = 0.270 kg * 1.8225 m² = 0.491475 kg*m²
Next, calculate the angular momentum (L):
L = Iω = (0.491475 kg*m²) * (10.4 rad/s) = 5.11054 kg*m²/s
Therefore, the angular momentum of the 0.270-kg ball revolving on the end of a thin string in a circle of radius 1.35 m at an angular speed of 10.4 rad/s is approximately 5.11 kg*m²/s.
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two football players collide head-on in midair while chasing a pass. the first player has a 115 kg mass and an initial velocity of 4.00 m/s in the positive x direction, while the second player has a 135 kg mass and initial velocity of 3.00 m/s in the negative x direction. what is the x component of their velocity just after impact if they cling together? (indicate the direction with the sign of your answer.)
Answer: The x component of their velocity just after impact is 0.22 m/s in the positive x direction.
Explanation:
According to law of conservation of momentum, the total momentum of a system is conserved if there are no external forces acting on it.
That is,
p=m1v1 + m2v2
m1 and v1 is the mass and velocity of the first player.
m2 and v2 is the mass and velocity of the second player.
p = (115 kg)(4.00 m/s) + (135 kg)(-3.00 m/s)
p = 460 kg m/s - 405 kg m/s
p = 55 kg m/s in the positive x direction
After collision,
let m3 is the combined mass and v3 is the velocity after collision.
p=m3*v3
m3= (115 kg)+(135 kg) = 250 kg
55 kg m/s = 250 kg* v3
v3= (55 kg m/s) /(250 kg) = 0.22m/s
The x component of their velocity just after impact if they cling together is -0.243 m/s.
First player's mass, m1 = 115 kg, Initial velocity of 1st player, u1 = 4.00 m/s, Second player's mass, m2 = 135 kg, Initial velocity of 2nd player, u2 = -3.00 m/s
X component of their velocity just after impact, v, Since they cling together, therefore the final velocity of their combined system would be v.X-momentum before collision = X-momentum after collision
m1 u1 + m2 u2 = (m1 + m2) vv = (m1 u1 + m2 u2) / (m1 + m2)
Putting the values in the above equation,v = (115 × 4.00 + 135 × (-3.00)) / (115 + 135)v = -0.243 m/s.The x component of their velocity just after impact is -0.243 m/s in the negative x direction. Therefore, the answer to the given question,the x component of their velocity just after impact if they cling together, is (-0.243 m/s).
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filters allow light to pass through. polaroid filters are very selective about the orientation of the light vibrations that are allowed through. the light that passes through a polaroid filter is vibrating in a direction that is . a. parallel to the orientation of the molecules that make up the alignment b. parallel to the polarization axis or transmission axis of the filter c. parallel to the ceiling or the sky (if the source of light is on the ceiling or in the sky) d. always horizontal, regardless of what the light source is
The light that passes through a polaroid filter is vibrating in a direction that is parallel to the polarization axis or transmission axis of the filter. Option b is correct.
Polaroid filters are made up of long-chain molecules that are aligned in a particular direction. These molecules only allow light waves that vibrate parallel to their alignment to pass through the filter.
The orientation of the light waves that pass through the filter is perpendicular to the polarization axis or transmission axis of the filter. Therefore, the light that passes through a polaroid filter is vibrating in a direction that is parallel to the polarization axis or transmission axis of the filter. Hence option b is correct choice.
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A fish, a wooden block, an egg, and a rock are placed in a container filled with water. None of the objects are moving.
Which one has the highest density?
A substance's density is a measurement of how heavy it is in relation to its size. If immersed in water, an object will float if its density is lower than that of the water, whereas it will sink if its density is higher.
What is a substance's density?
A substance's density is defined as its mass every unit volume (more specifically, the cubic mass density; sometimes known as specific mass). Although the Roman letter D may also be used, the sign most frequently used for dense is (the misspelling Greek letter rho). The formula for density is mass divided by quantity
Why is a substance's density a valuable property?
Because increasing a substance's mass results in an increase in mass rather than density, density is an intense attribute. A homogeneous object has a density that is equal to its whole mass multiplied by its entire volume at all places.
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uv radiation having a wavelength of 113 nm falls on platinum metal, whose work function is 6.35 ev. what is the maximum kinetic energy (in ev) of the ejected photoelectrons?
Uv radiation having a wavelength of 113 nm falls on platinum metal, whose work function is 6.35 ev. The maximum kinetic energy of the ejected photoelectrons is 4.62 eV.
The maximum kinetic energy (KEmax) of the ejected photoelectrons can be calculated using the equation:
KEmax = E_photon - Work_function
First, convert the given wavelength (113 nm) to energy (E_photon) using the formula:
E_photon = (hc) / λ
where h (Planck's constant) = 4.1357 x 10^(-15) eV·s, c (speed of light) = 2.998 x 10^8 m/s, and λ (wavelength) = 113 nm.
Convert λ to meters: λ = 113 x 10^(-9) m
Now, calculate E_photon:
E_photon = (4.1357 x 10^(-15) eV·s) * (2.998 x 10^8 m/s) / (113 x 10^(-9) m)
E_photon = 10.97 eV
Next, subtract the work function (6.35 eV) to find the maximum kinetic energy:
KEmax = 10.97 eV - 6.35 eV = 4.62 eV
The maximum kinetic energy of the ejected photoelectrons is 4.62 eV.
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determine the total force and the absolute pressure on the bottom of a swimming pool 24.0 m by 8.5 m whose uniform depth is 1.8 m. (b) what will be the absolute pressure against the side of the pool near the bottom?
The absolute pressure against the side of the pool near the bottom is 19,620 Pa.
(a) To determine the total force and the absolute pressure on the bottom of the swimming pool, we need to use the formula for pressure at a depth in a fluid:
P = ρgh
where P is the pressure, ρ is the density of the fluid, g is the acceleration due to gravity, and h is the depth of the fluid.
Assuming that the swimming pool is filled with water, we can use the density of water at room temperature, which is approximately 1000 kg/m^3. We can also use the acceleration due to gravity, which is approximately 9.81 m/s^2.
The depth of the water in the swimming pool is 1.8 m. Therefore, the pressure at the bottom of the swimming pool is:
P = ρgh = (1000 kg/m^3)(9.81 m/s^2)(1.8 m) = 17,676 Pa
To determine the total force on the bottom of the swimming pool, we need to multiply the pressure by the area of the bottom of the pool.
F = PA = (17,676 Pa)(24.0 m)(8.5 m) = 4,053,936 N
Therefore, the total force on the bottom of the swimming pool is 4,053,936 N, and the absolute pressure is 17,676 Pa.
(b) To determine the absolute pressure against the side of the pool near the bottom, we can use the same formula as before, but this time we need to use the depth from the surface of the water to the side of the pool:
P = ρgh = (1000 kg/m^3)(9.81 m/s^2)(1.8 m + 0.5 m) = 19,620 Pa
where we added 0.5 m to account for the height of the side of the pool above the water surface.
Therefore, the absolute pressure against the side of the pool near the bottom is 19,620 Pa.
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a bar magnet is falling vertically through a horizontal loop of wire with the south magnetic pole entering the loop first. what is the direction of the induced current (viewed from above) as the north pole leaves the loop?
A bar magnet is falling vertically through a horizontal loop of wire with the south magnetic pole entering the loop first. The direction of the induced current (viewed from above) as the north pole leaves the loop is counterclockwise (viewed from above)
According to Faraday's Law, whenever there is a change in the magnetic flux in a loop of wire, an induced emf (electromotive force) will appear in the wire that produces an induced current. This induced emf will flow in the direction that opposes the change in magnetic flux that generated it, Lenz's Law is a corollary of Faraday's Law. The direction of the induced current opposes the change in magnetic flux that produced it, as specified by Lenz's Law. The current induced in the loop of wire generates a magnetic field that opposes the motion of the magnet, slowing it down. As a result, the current flows in a counterclockwise direction (viewed from above) as the north magnetic pole leaves the loop.
Here is a quick summary of the direction of the induced current: The direction of the induced current is counterclockwise (viewed from above) as the north magnetic pole leaves the loop. In simple words, when the magnet is removed away from the coil, the magnetic field through the coil will change in a way that generates a current that opposes the change. This is to say, when the magnet is removed, the coil sees a reduction in magnetic flux which it doesn’t like, and hence it generates a magnetic field of its own which creates a magnetic flux in the direction of the original magnetic field.
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Sample Response: The work-energy theorem describes work as the change in energy brought about by the change in velocity. When the velocity of an object increases, the environment has done work on the object and the energy of that object is increased. When the velocity of an object decreases, the object has done work on the environment and the energy of the object is decreased. What did you include in your response? Check all that apply. Work is the change in energy brought about by a change in velocity. When the velocity of an object increases, the environment has done work on the object and the energy of that object is increased. When the velocity of an object decreases, the object has done work on the environment and the energy of the object is decreased.
The correct responses are:
1. Work is the change in energy brought about by a change in velocity.
2. When the velocity of an object increases, the environment has done work on the object and the energy of that object is increased.
3. When the velocity of an object decreases, the object has done work on the environment and the energy of the object is decreased.
The work-energy theorem is a fundamental principle in physics that relates the work done on an object to the change in its kinetic energy. It says that an object's net work is equivalent to the change in its kinetic energy. In other words, work is a measure of how much energy is transferred to or from an object.
When an object's velocity increases, it means that it has gained kinetic energy. According to the work-energy theorem, this increase in kinetic energy is equal to the work done on the object by the environment. For example, if you push a ball on the ground, the force you exert on the ball does work on it, increasing its kinetic energy and causing its velocity to increase.
On the other hand, when an object's velocity decreases, it means that it has lost kinetic energy. In this case, the object has done work on the environment.
For example, if you throw a ball upwards, the ball will eventually stop moving and fall back down. As it rises, its velocity decreases and it loses kinetic energy. This loss of kinetic energy is equal to the work done by the force of gravity on the ball.
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a cosmic catastrophic event occurred that caused the tilt of the earth's axis relative to its plane of orbit to increase from 23.5 degrees to 90 degrees. the most obvious effect of this change would be * 5 points a) the elimination of trade winds. b) an increase in the length of night. c) an increase in the length of a year. d) the elimination of seasonal variation.
The cosmic catastrophic event that occurred, which caused the tilt of the Earth's axis relative to its plane of orbit to increase from 23.5 degrees to 90 degrees, the most obvious effect of this change would be d. the elimination of seasonal variation.
Seasonal variation refers to the occurrence of climatic conditions that can be seen to vary from one season to the next. This seasonal variation is brought about by the tilt of the Earth's axis relative to its plane of orbit, which results in the hemispheres receiving different amounts of sunlight at different times of the year. This results in the appearance of seasons such as winter, spring, summer, and fall. The Earth's axis is tilted at an angle of 23.5 degrees relative to its plane of orbit around the sun. This angle results in the Earth's axis always pointing in the same direction as it orbits the sun, resulting in seasonal variation.
In the absence of this tilt, there would be no seasonal variation, the most noticeable effect of the increased tilt of the Earth's axis from 23.5 degrees to 90 degrees would be the elimination of seasonal variation, as there would no longer be any change in the amount of sunlight that the hemispheres receive. Therefore, option d) the elimination of seasonal variation would be the correct answer.
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a passenger weighs 897 n at the weight-guessing booth on the ground. what is his apparent weight at the lowest point on the ferris wheel?
The passenger's apparent weight at the lowest point on the Ferris wheel can be calculated using the formula given below.
Apparent weight = True weight - (density of fluid x volume of the fluid displaced)`` `Where True weight = 897 N` Density of fluid = density of air `Volume of fluid displaced = 0At the lowest point on the Ferris wheel, the passenger experiences maximum weight or a sensation of heaviness. This is because the passenger's weight is equal to the sum of his mass and the centripetal force acting on him. We can thus calculate the passenger's weight or apparent weight at the lowest point on the Ferris wheel using the formula given below.` Apparent weight = True weight + centripetal force`` `Where; `True weight = 897 N `Centripetal force = (mass x velocity²) / radius Let's now calculate the centripetal force;` Centripetal force = (mass x velocity²) / radius = (897 N / 9.81 m/s²) x (2π x 0.84 m / 10 s)² / 0.84 m` `= 32.94 N` Substituting this value in the formula for apparent weight,` Apparent weight = True weight + centripetal force` `= 897 N + 32.94 N` `= 929 N` Therefore, the passenger's apparent weight at the lowest point on the Ferris wheel is 929 N.
At the lowest point of the ferris wheel, the passenger's apparent weight will be the same as their actual weight. Therefore, the apparent weight at the lowest point is 897 N.
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you tie a cord to a pail of water, and you swing the pail in a vertical circle of radius 0.600 m. what minimum speed must you give the pail at the highest point of the circle if no water is to spill from it?
When you tie a cord to a pail of water and swing it in a vertical circle of radius 0.600 m, the minimum speed you should give the pail so that no water is to spill is calculated using conservation of energy which is 3.43 m/s.
Mechanical energy conservation can be expressed as follows:Ei = Ef where Ei is the initial energy of the system and Ef is the final energy of the system. We'll set the lowest point of the circle as the reference point. Then, for the initial and final positions, we obtain: Ei = KEi + PEi = KEf + PEf where KEi and KEf are the kinetic energies of the water at the initial and final positions, respectively, while PEi and PEf are the potential energies of the water at the initial and final positions, respectively, while PEi and PEf are the potential energies of the water at the initial and final positions, respectively.
When the water reaches the top of the circle, its velocity is zero because it reaches a maximum height at the top of the circle. As a result, we can neglect the final kinetic energy (KEf). Hence,Ei = KEi + PEi = PEfWe can solve for the initial velocity (v) using the law of conservation of energy. Initial gravitational potential energy is equal to initial kinetic energy. Therefore, mgh = 1/2 mv² where m is the mass of the water in the pail, g is the acceleration due to gravity, h is the height of the highest point of the circle, and v is the minimum velocity required to keep the water in the pail.
The minimum velocity at the highest point can be found by rearranging this equation: V = √2gh where, V = minimum velocity, h = 0.600 mg = 9.81 m/s². So, we get, V = √2gh = √(2 × 9.81 × 0.600) = 3.43 m/s. Therefore, the minimum velocity to prevent water from spilling from the pail is 3.43 m/s.
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many curves on the roads in the united states are banked at an angle to prevent cars from skidding between lanes. what is a typical range of angles at which curves are banked on interstate highways where cars travel approximately 55mph
The typical range of angles at which curves are banked on interstate highways where cars travel approximately 55mph is 6 degrees to 8 degrees.
Banking is an essential requirement for sharp turns or curves on the roads. It helps in avoiding skidding and accidents. The bank angle depends on the speed of the vehicle, and the radius of the curve.
What is banking?Banking is the inclination of the road surface at a curve with respect to the horizontal plane. This angle helps in preventing the skidding of the vehicle while turning.
The correct angle of banking provides centripetal force on the vehicle, which helps in moving the car toward the center of the curve rather than outwards.
The angle of banking required to bank a curve depends on the speed of the vehicle, the radius of the curve, and the friction between the tires and the road. For a particular radius, there is only one specific angle of banking that is required for a particular speed.
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what is your prediction 1-2? how will kinetic energy, gravitational potential energy, and mechanical energy change as the ball falls?
As the ball falls, its kinetic energy will increase, its gravitational potential energy will decrease, and its mechanical energy will remain constant.
This is because gravity is constantly accelerating the ball downwards, increasing its speed and kinetic energy, while simultaneously decreasing its potential energy due to the loss of height.
The ball’s mechanical energy, on the other hand, will remain constant since gravity is the only force acting on it. This is because the ball’s mechanical energy is equal to the sum of its kinetic and potential energies, and since the one is increasing while the other is decreasing, they cancel each other out, leaving the mechanical energy unchanged.
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A 0.45 kg stone is thrown at an initial velocity of 23.1 m/s [R 32o U]. Assuming the stone undergoes projectile motion, how much kinetic energy does it have at the top of its flight?
Answer:
To solve this problem, we need to use the conservation of energy principle. At the top of its flight, the stone has zero kinetic energy and only potential energy due to its position above the ground. Therefore, we can calculate the potential energy and then use the conservation of energy to find the kinetic energy at the top of its flight. The gravitational potential energy of an object is given by the formula: PE = mgh where m is the mass of the object, g is the acceleration due to gravity, and h is the height of the object above the ground. The stone is thrown at an angle of 32 degrees above the horizontal, so its maximum height can be found using the formula: h = (v^2 * sin^2θ) / (2g) where v is the initial velocity, θ is the angle of projection, and g is the acceleration due to gravity