The turn's radius of curvature is 0.04 meters. A 90 degree turn is completed by the bee in 0.628 seconds on average.
How is the radius of curvature for such a turn determined?The radius of curvature of the turn can be calculated using the centripetal acceleration equation:
a = v² / r
where r is the radius of curvature, v is the speed, and an is the centripetal acceleration. When we rearrange this equation to account for r, we obtain:
r = v² / a
Inputting the values provided yields:
0.04 m is equal to r = (0.40 m/s)2 / 4.0 m/s2.
As a result, the turn's radius of curvature is 0.04 meters.
How long does it take a bee to complete a 90-degree turn?We can use the equation for the circumference of a circle to determine how long it takes the bee to complete a 90-degree turn:
C = 2πr
C/4 = (2πr)/4 = πr/2
The result of substituting the r value we discovered before is:
πr/2 = (π/2) (0.04 m) = 0.063 m
We can divide the distance travelled by the speed to determine the required amount of time:
t = d/v
t = (2πr)/v
When we replace the values we discovered above, we obtain:
t = (2π)(0.04 m) / 0.40 m/s = 0.628 s
As a result, the bee needs about 0.628 seconds to complete a 90-degree turn.
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The diagram below shows three kettles with their powers and the time they take to boil 500cm3 of water. If electricity costs 9p per unit, how much does it cost to boil 500cm3 of water using the 1.4kW kettle?
NOTE IF YOU ARE RIGHT YOU WILL GET A BRAINLY!!
The cost of boiling 500 cm³ of water using 1.4kW kettle is 0.945 p
How do I determine the cost of boiling water using 1.4 KW kettle?We shall begin our calculation by obtaining the energy consumed when using 1.4 KW kettle. This is shown below:
Power (P) = 1.4 KW Time (t) = 4.5 minutes = 4.5 / 60 = 0.075 hoursEnergy (E) =?E = Pt
E = 1.4 × 0.075
E = 0.105 KWh
Finally, we shall determine the cost of boiling the water using the 1.4 KW kettle. Details below
Cost per KWh = 9 pEnergy (E) = 0.105 KWhCost of boiling =?Cost = energy × Cost per KWh
Cost of boiling = 0.105 × 9
Cost of boiling = 0.945 p
Thus, we can conclude that the cost of boiling is 0.945 p
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a river flows south east at 10km/hr and a boat floats upon it with it's bow pointed in the direction of travel . a man walks upon the deck at 2km in a direction to the right and perpendicular to the direction of the boats movement find the velocity of the man with respect to the earth ?
Explanation:
See image below...direction will be SSE
a copper water tank of mass 20 kg contains 150 kg of water at 15°C calculate the energy needed to heat the water and the tank to 55°C
copper shc - 385j/kg
water shc - 4200j/kg
Answer: 25230800 Joules
Explanation: We can treat the copper tank and the water inside as two different objects since they have different specific heats. We will utilize Q=Mcdelta(t) in this problem where M is mass, c is specific heat, and delta t is the change in temperature.
Since we are treating the copper and water separately we can make a Mcdelta(t) for each one of them. This gives us Q=(mass of copper)(specific heat of copper)(delta(t))+(mass of water)(specific heat of water)(delta(t)). The delta t will be the same because both the copper and water are at 15 celsius. Now we just do some calculations.
Q=(mass of copper)(specific heat of copper)(delta(t))+(mass of water)(specific heat of water)(delta(t))
Q=(20)(385)(55-15)+(150)(4200)(55-15)
Q=30800+25200000
Q=25230800 J
This number may seem absurdly high but there is 150 kg of water being heated up which is 150 liters(A LOT!).
Hope this helps!
The critical fields at 6k at 8k for an alloy are 7.616 & 4.284 Wb/m² resp. Determine the transition temperature and critical field at 0 k temperature?
Answer:
The transition temperature is 0.920 K and the critical field at 0 K is 8.956 Wb/m².
Explanation:
To determine the transition temperature and critical field at 0 K, we need to use the following formula:
Bc(T) = Bc(0)[1-(T/Tc)^2]
where:
Bc(T) = critical magnetic field at temperature T
Bc(0) = critical magnetic field at 0 K
T = temperature
Tc = transition temperature
We have the critical fields at 6 K and 8 K:
Bc(6 K) = 7.616 Wb/m²
Bc(8 K) = 4.284 Wb/m²
We can use these values to find the transition temperature:
7.616 = Bc(0)[1-(6/Tc)^2]
4.284 = Bc(0)[1-(8/Tc)^2]
Dividing the two equations, we get:
7.616/4.284 = [1-(6/Tc)^2]/[1-(8/Tc)^2]
Simplifying the right-hand side:
7.616/4.284 = [(8/Tc)^2 - 1]/[(6/Tc)^2 - 1]
Let x = (8/Tc)^2
Then (6/Tc)^2 = x/64
Substituting into the equation above:
7.616/4.284 = (x - 1)/(x/64 - 1)
Simplifying:
7.616/4.284 = 64(x - 1)/(x - 64)
Multiplying both sides by (x - 64):
7.616/4.284 * (x - 64) = 64(x - 1)
Simplifying:
(x - 64)/(x - 1) = 7.616/4.284 * 1/64
Multiplying both sides by (x - 1):
x - 64 = 7.616/4.284 * 1/64 * (x - 1)
Simplifying:
x = 74.14
Substituting back into (8/Tc)^2 = x:
(8/Tc)^2 = 74.14
8/Tc = ±8.607
Tc = 0.920 K or 0.103 K
Since the transition temperature should be higher than the critical field at 0 K, we choose Tc = 0.920 K.
Now we can use either of the equations for Bc(T) to find Bc(0):
7.616 = Bc(0)[1-(6/0.920)^2]
Bc(0) = 8.956 Wb/m²
Therefore, the transition temperature is 0.920 K and the critical field at 0 K is 8.956 Wb/m².
ANSWER 5 QUESTIONS FOR 35 POINTS PLS!!!
1. The problem in correlating the rock layers of location D is that there are no clear index fossils that can be used to determine the relative age of the rock layers.
2. Yes, there can be a problem in determining the time span of any rock layers without the use of index fossils. The age of a rock layer can only be estimated by comparing it to the ages of other rock layers in the area, which is done by examining the sequence of the layers and the type of fossils found in them. However, this method only provides a relative age range and not an exact age.
3. While fossils can provide important clues to the relative age of rock layers, they cannot be used to determine the exact age of a layer. This is because the age of a rock layer is determined by the decay of radioactive isotopes in the rock, which is a process that occurs over a long period of time.
4. The feature(s) of the fossils that make them ineffective in dating the relative age of rock layers is that they are not index fossils. Index fossils are usually species that have a widespread distribution and existed for a short period of time, making them useful for dating rock layers over a large area. The fossils listed (clam, nautilus, fusulina, sea urchin, gingko, and snail) may have existed for long periods of time, making them less useful for dating the relative age of rock layers.
What are fossil?Index fossils are distinctive fossils that are used to establish and compare the relative ages of rock layers in different locations. Without index fossils, it becomes difficult to determine which layers are older or younger relative to each other.
The "missing" rock layer could have been eroded away or never deposited in that location. This can occur due to natural processes such as erosion or deposition in a different location, or due to human activity such as mining or excavation. Without the missing layer, it becomes more difficult to accurately date the other rock layers in the area.
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1. What was the problem in correlating the rock layers of location D? Explain.
2. Was there a problem in determining the time span of any rock layers? Explain.
3. Why can't you determine the EXACT age of a layer of rock by simply observing fossils in a rock layer? What constraints you in making this determination?
4. There are fossils in location D that are not index fossils. What feature(s) of these fossils make them ineffective in dating the relative age (as a range of time) of rock layers? Note: The names of the fossils are listed below. What "problem" most likely occurred that led to the missing rock layer? Explain
How to solve it please i need explanation
Answer:
8 N
Explanation:
The net force formula is F = m×a
a = 2 m/s^2, m2 = 4 kg
So, now we can find F:
F = 4 × 2 = 8 N
in a car race along a straight race course betv,ieen Yaw and Kofi. both staried from rest but Kofi leaves the statiing line 2.00 s after Yaw does. Yav,; and Kofi maintain acceleration of 4.00 m S2 and 5.00 m S·2 respectively.
We can use the following kinematic equations to solve the problem:
v = u + ats = ut + 1/2 at^2v^2 = u^2 + 2asFor Yaw:
a = 4.00 m/s^2
t = time taken by Kofi + 2.00 s (since Yaw started 2.00 s earlier)
s = distance covered by Yaw when Kofi starts
Using the equation s = ut + 1/2 at^2, we get:
s = 0 + 1/2 (4.00) (2.00)^2
s = 8.00 m
For Kofi:
a = 5.00 m/s^2
We want to find the time when Kofi overtakes Yaw, so we can use the equation:
s = ut + 1/2 at^2
Let t be the time taken by Kofi to overtake Yaw. At that time, their positions will be the same, so the distance covered by Kofi will be equal to the distance covered by Yaw plus 8.00 m. Hence,
1/2 (5.00) t^2 = 1/2 (4.00) (t - 2.00)^2 + 8.00
Simplifying and solving for t, we get:
t = 4.00 s
Therefore, Kofi overtakes Yaw after 4.00 s.
To find the distance Kofi travels before he catches Yaw, we can use the same equation:
s = ut + 1/2 at^2
Using t = 4.00 s and a = 5.00 m/s^2, we get:
s = 0 + 1/2 (5.00) (4.00)^2
s = 40.00 m
Therefore, Kofi travels 40.00 m before he catches Yaw.
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in a car race along a straight race course between Yaw and Kofi. both start from rest but Kofi leaves the starting line 2.00 s after Yaw does. Yav,; and Kofi maintain acceleration of 4.00 m S2 and 5.00 m S·2 respectively.
Calculate the time at which kofi overtakes yaw
Calculate the distance kofi travels before he catches yaw.
An object of mass 50 g is attached to a string of length 50 cm which will break if tension is 20 N. The object is whirled in a vertical circle, the axis of rotation being at a height of 100 cm above the ground. The angular speed is very slowly increased until the string breaks. In what position is the week is likely to occur and of what angular speed? Where will the object hits the ground?
Answer:
sorry hindi q po alm hahahahahah
The mass of the moon is 7.35 × 1022 kg and the mass of the earth is 5.98 × 1024 kg. The average distance between the moon and the earth is 3.84 × 108 m. What is this satelite's speed, in km/s (kilometer per second)? Use G = 6.67 × 10-11 N·m2/kg2.
The speed of the moon is approximately 4.70 km/s.
What is the formula to calculate the gravitational force between two objects?The formula to calculate the gravitational force between two objects is F = G * (m1 * m2) / r^2, where F is the gravitational force, G is the gravitational constant, m1 and m2 are the masses of the two objects, and r is the distance between their centers.
How does the distance between two objects affect the gravitational force between them?The gravitational force between two objects is inversely proportional to the square of the distance between them. This means that as the distance between two objects increases, the gravitational force between them decreases. Conversely, as the distance between two objects decreases, the gravitational force between them increases.
We can use the formula for gravitational force to find the speed of the moon:
F = ma = GMm/r^2
where F is the gravitational force between the moon and the earth, m is the mass of the moon, M is the mass of the earth, r is the distance between them, G is the gravitational constant, and a is the acceleration of the moon.
Solving for a, we get:
a = GM/r^2
Using the given values and converting to km and s units:
a = (6.67 × 10^-11 N·m^2/kg^2) × (5.98 × 10^24 kg) / (3.84 × 10^8 m)^2 = 1.99 × 10^-3 m/s^2
Then, we can use the formula for speed (v) and time (t):
v = at
The time it takes for the moon to orbit the earth once is approximately 27.3 days, or 2.36 × 10^6 s. So, we have:
v = (1.99 × 10^-3 m/s^2) × (2.36 × 10^6 s) = 4.70 × 10^3 m/s
Converting to km/s:
v = 4.70 × 10^3 m/s ÷ 1000 = 4.70 km/s
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A highway is to be built between two towns, one of which lies 32.0km south and 72.0km west of the other. What is the shortest length of highway that can be built between the two towns, and at which angle would this highway be directed with respect to due west
The shortest distance that can be travelled by road between the two towns, and at what angle would it face due west is 78.79km and Ф is 23.3°
We can create a right triangle with legs that are 32 km and 72 km apart if we join the tips of the distances from the west and south. The hypotenuse is the unidentified shortest length. The Pythagorean theorem enables us to state that According to the Pythagorean Theorem, The sum of the squares of the lengths of a right triangle's legs equals the square of the hypotenuse's length.
In other words, a² + b² = c² for the triangle depicted below.The right triangle's legs, a and b, are perpendicular sides, and the hypotenuse, c, is the side that faces away from the right angle.
This program is frequently employed in building projects and essentially anything that includes right triangles, like as roofs for homes, and soon.
h² = (32 km)² + (72 km)².
h²=1024+5184
h²=6208
h=√6208
h=78.79km
Angle=tan⁻¹(Ф)
so tan(Ф)=32/72
tan(Ф)=0.444
Ф=tan⁻¹(0.444)
=23.3Degrees
H is equal to 78.79 in terms of value. As a result, the shortest length of the route is about 78.79 km and angleФ is 23.3°.
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State ar Chinese’s principle
Answer:
The three principles are often translated into and summarized as nationalism, democracy, and the livelihood of the people.
A washbasin has an exit pipe covered with a play of area 12cm². A chain is attached to the centre of the plug to assist in pulling the plag away from the out hole. The washbasin contains water to a depth of 0.08% -3 The density of water is 1000 kgm.
Answer:
To solve this problem, we need to use the principles of fluid mechanics, specifically Bernoulli's equation, which relates the pressure, velocity, and height of a fluid at different points in a system.
First, we need to find the weight of the water in the washbasin. The volume of water is equal to the area of the base of the basin (assuming it's circular) multiplied by the depth of the water:
V = πr²h
where r is the radius of the basin and h is the depth of the water. Since the depth of the water is given as 0.03m, we need to convert it to meters:
h = 0.03 m
The radius of the basin is not given, so we can't calculate the volume directly. However, we can use the fact that the density of water is 1000 kg/m³ to find the weight of the water:
density = mass/volume
mass = density x volume
The mass of the water is then:
m = density x V
Next, we need to find the pressure at the bottom of the basin, which is equal to the weight of the water divided by the area of the base of the basin:
pressure = weight/area
We can then use Bernoulli's equation to relate the pressure at the bottom of the basin to the pressure at the exit pipe:
pressure + 1/2(density)(velocity²) + density(g)(height) = constant
where velocity is the speed of the water flowing out of the pipe, g is the acceleration due to gravity, and height is the height of the water above the exit pipe.
At the bottom of the basin, the velocity of the water is zero, so the second term on the left-hand side of the equation is zero. Also, since the exit pipe is at the same level as the bottom of the basin, the height term is also zero. Therefore, the equation simplifies to:
pressure = constant
which means that the pressure at the exit pipe is equal to the pressure at the bottom of the basin.
Now we can use the pressure at the bottom of the basin and the area of the exit pipe to find the force required to lift the plug:
force = pressure x area
Finally, we need to convert the force to the weight of the plug, which is given by:
weight = force/g
where g is the acceleration due to gravity.
Putting all of these steps together, we get:
V = πr²h = π(0.06m)²(0.03m) = 3.4 x 10⁻⁴ m³
m = density x V = 1000 kg/m³ x 3.4 x 10⁻⁴ m³ = 0.34 kg
pressure = weight/area = m(g)/area = (0.34 kg)(9.8 m/s²)/(12 x 10⁻⁴ m²) = 2.8 x 10³ Pa
force = pressure x area = (2.8 x 10³ Pa)(12 x 10⁻⁴ m²) = 0.34 N
weight = force/g = 0.34 N/9.8 m/s² = 0.034 kg
Therefore, the weight of the plug is 0.034 kg, or approximately 34 grams.
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Aluminum
13
AI
26.982
Answer:
Aluminum is a chemical element with the symbol Al and atomic number 13. Its atomic weight is approximately 26.982 u.
Explanation:
The VR(and so IMA) of the inclined plane
An astronaut floating in space is motionless. The astronaut throws a wrench in one direction, propelling her in the opposite direction. Which of the following statements are true? (Choose all that apply.)
The impulse applied to the wrench is equal and opposite to the impulse applied to the astronaut.
What exactly does velocity mean?
The speed at which a body or object is moving determines its direction of motion. Most of the time, speed is a scalar quantity. In essence, velocity is a vector quantity. The rate at which distance changes is what it is. It is the rate at which displacement is changing.
I. The velocities will not be same
II. Initial momentum = final momentum
0 = Momentum of Astronaut + Momentum of Wrench
Momentum of Astronaut = - Momentum of Wrench
so equal and opposite
this statement is correct.
III. Impulse = change in momentum
As momentum is equal and opposite impulse will also be equal and opposite.
This statement is also correct.
the impulse applied to the wrench is equal and opposite to the impulse applied to the astronaut.
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A truck covers 40.0 m in 9.15 s while uniformly slowing down to a final velocity of 2.20 m/s.
(b) Find its acceleration.
Incorrect: Your answer is incorrect.
m/s2
Answer:
0.24ms^-2
Explanation:
a=v/t2-t1
a =2.24/9.15
a= 0.24 m/s^-2
Challenge: Draw a complex circuit. This circuit should have four light bulbs (two in parallel and
two in series), two switches (one to turn off series lights and one to turn off parallel lights), and
one battery.
The circuit would have one battery with a positive and negative terminal. Connected to the positive terminal would be one switch and then two light bulbs in series. The other end of the two light bulbs in series would be connected to the negative terminal of the battery. Connected in parallel to the two light bulbs in series would be another two light bulbs. The positive end of the first parallel light bulb would be connected to the positive end of the second parallel light bulb. The other ends of both parallel light bulbs would be connected to the negative terminal of the battery. The first switch would be connected to the two light bulbs in series and would turn off only those two light bulbs when switched. The second switch would be connected to the two light bulbs in parallel and would turn off only those two light bulbs when switched.
What is a series connection?In electronics, a series connection refers to a circuit in which the components (such as resistors, capacitors, or light bulbs) are connected end-to-end in a single path, so that the same current flows through each component in turn.
In a series connection, the voltage applied to the circuit is divided among the components according to their individual resistance or impedance values. The total resistance of a series circuit is equal to the sum of the individual resistances of each component.
In a series connection, the total voltage across the circuit is equal to the sum of the individual voltage drops across each component.
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The world’s narrowest street, which is located in a small Italian village, is only 43 cm wide. Suppose a fish with a mass of 1.8 kg is hung from a string attached to a stick. The stick, slightly longer than the street is wide, is placed horizontally across the narrow street with each end resting on a windowsill. The fish hangs a horizontal distance of 7.0 cm from the windowsill on the right. If the axis of rotation for the stick is taken to be the end farthest from the fish, what is the magnitude of the torque produced by the fish? Assume the stick has negligible mass.
The magnitude of the torque produced by the fish is approximately 6.34 N·m.
What is Axis of Rotation?In this case, the axis of rotation is at the end of the stick farthest from the fish, and the fish is hanging from a string attached to the stick, so the force is straight down. The distance from the axis of rotation to the fish is the length of the stick minus the distance from the fish to the windowsill on the right:
τ = r × F × sin(θ)
r = 0.43 m - 0.07 m = 0.36 m
The force is the weight of the fish, which we can calculate using the gravitational acceleration near the Earth's surface:
F = m × g = 1.8 kg × 9.81 m/s2 = 17.658 N
The angle between the force and the lever arm is 90 degrees, because the force is straight down and the lever arm is horizontal:
θ = 90 degrees = π/2 radians
Plugging in the values, we get:
τ = r × F × sin(θ) = 0.36 m × 17.658 N × sin(π/2) ≈ 6.34 N·m
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consider a man of mass 80kg standing 10m from a woman with a mass of 65 kg the attractive gravitational force between them would be ?
please I need a fast verified answer
3.17 x 10^-8 Newtons is the required gravitational force between them.
Determining the gravitational force between objectsThe gravitational force between two objects is given by the formula:
F = G * (m1 * m2) / r^2
where F is the gravitational force, G is the gravitational constant (6.6743 x 10^-11 N*m^2/kg^2), m1 and m2 are the masses of the two objects, and r is the distance between the centers of mass of the two objects.
In this case, the masses of the man and the woman are:
m1 = 80 kg
m2 = 65 kg
The distance between them is:
r = 10 m
Plugging these values into the formula, we get:
F = 6.6743 x 10^-11 * (80 kg * 65 kg) / (10 m)^2
F = 3.17 x 10^-8 Newtons
Therefore, the attractive gravitational force between the man and the woman is approximately 3.17 x 10^-8 Newtons.
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Which of the following ideas provided an important step towards a more complete understanding of blackbody radiation
The following theories contributed significantly to a more full knowledge of black body radiation. Light is made up of separate pieces that must be absorbed together.
What is the cause of black body radiation?A black body is an object that absorbed all radiation falling on it at all wavelengths. When a black body is at a constant temperature, its emission exhibits a temperature-dependent frequency distribution. It emits what is known as black-body radiation.
What exactly is the black body radiation experiment?One of the first experiments that led to quantum mechanics was blackbody radiation. It all started with the basic observation that when you heat a metal, it first turns red, then yellow, and finally white hot as the temperature rises.
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Write a hypothesis about the pH level of common household solutions based on what you know about their physical and chemical properties. Use the format of "if . . . then . . . because . . .” and be sure to answer the lesson question "How is pH used to determine if a solution is acidic or basic?
The terms "IF" and "THEN" are frequently used when writing the hypothesis. For instance, "I will not pass the test if I don't study." Your variables are reflected in the "if" and "then" lines. A solution is said to be acidic or basic depending on its pH value, which ranges from 7 to 14.
How are acids and bases classified using pH?All compounds fall into one of three categories: basic (pH higher than 7), acid (pH or less 7), or neutral (pH about 7). The pH also indicates how powerful or weak the substance is. For instance, an item with a pH of 8 acts as a weak base, whereas an item with a pH of 3 is a powerful acid.
What is the theory behind the experiment in problem solving?The hypothesis is essentially a prediction of what you believe will occur if you adopt a specific course of action to address an issue. The hypothesis often specifies what will change, what might result from the action, and why you believe the change is necessary.
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calculate the energy needed to raise the temperature of 0.40kg of water in an aluminium container of mass 0.20kg from 15 degrees to 40 degrees
aluminium shc - 900 j/kg
Answer:
To calculate the energy needed to raise the temperature of the water, we can use the following formula:
Q = m * c * ΔT
where:
Q = energy (in joules)
m = mass (in kilograms)
c = specific heat capacity (in joules per kilogram per degree Celsius)
ΔT = change in temperature (in degrees Celsius)
We are given:
m of water = 0.40 kg
ΔT = (40 - 15) = 25 °C
m of container = 0.20 kg
c of aluminum = 900 J/kg°C
First, we need to calculate the energy needed to raise the temperature of the container:
Q1 = m1 * c1 * ΔT
Q1 = 0.20 kg * 900 J/kg°C * 25 °C
Q1 = 4500 J
Next, we need to calculate the energy needed to raise the temperature of the water:
Q2 = m2 * c2 * ΔT
Q2 = 0.40 kg * 4186 J/kg°C * 25 °C
Q2 = 41860 J
The total energy needed is the sum of Q1 and Q2:
Q = Q1 + Q2
Q = 4500 J + 41860 J
Q = 46360 J
Therefore, the energy needed to raise the temperature of 0.40 kg of water in an aluminium container of mass 0.20 kg from 15 degrees to 40 degrees is 46360 J.
Explanation:
What is electrical energy?
A. The ability to do work.
B. The energy of moving electrons.
C. The energy of electricity.
D. The force of moving atoms.
Answer:
The answer is A( The ability to do work)
or B it's in between those two answers
I have been working to figure out this question and am lost. It asks "for what value of x-axle will the two forces provide 1.6 Nm of torque about the axle?"
Hence, 12.484 cm is the length of the axle for which the two forces produce 1.6 Nm of torque.
How can you increase a given lever arm's torque without using additional force?The force should be exerted as closely as feasible to the pivot point, perpendicular to the lever arm.
The torque produced by the two forces about the axle can be computed using the information in the diagram as follows:
Torque = Force x Distance x sin(theta)
Given that the angle is 90 degrees and the force is 10 N, the torque is as follows for the given distance from the axle:
Torque1 = 10 N x (10 cm + Laxle) x sin(90 degrees)
Torque1 = 10 N x (10 cm + Laxle) x 1
Torque1 = 100 N.cm + 10 N.Laxle
With a 30 degree angle and a distance from the axle of 10 cm for the 5 N force, the torque is as follows:
Torque2 = 5 N x 10 cm x sin(30 degrees)
Torque2 = 5 N x 10 cm x 0.5
Torque2 = 25 N.cm
The sum of the torques produced by the two forces represents the overall torque:
Total Torque = Torque1 + Torque2
Total Torque = 100 N.cm + 10 N.Laxle + 25 N.cm
Total Torque = 125 N.cm + 10 N.Laxle
The combined torque produced by the two forces is 1.6 Nm, as stated. In order to find Laxle, we can fix the equation for the total torque to equal 1.6 Nm:
125 N.cm + 10 N.Laxle = 1.6 Nm
125 N.cm + 0.16 N.cm = 10 N.Laxle
124.84 N.cm = 10 N.Laxle
Laxle = 12.484 cm
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Using P = M x V what is the momentum of an object with a mass of 750 kg and velocity of 15 m/s
Answer:
p = 11250 kg·m/s
Explanation:
Explanation:
it goes like this p=MV which is
M=750,V=15
p= 750x15=11250n
Compare the slant range Ri and flight time ti for the depicted projectile with the range R and flight time t for a projectile (launched with speed v0 and inclination angle α) which flies over a horizontal surface. Evaluate your four results for v0 = 80m/s and α = 16°
The slant range and flight time for the projectile in the illustration are roughly Ri = 1013.7 m and ti = 12.4 s for v0 = 80 m/s and = 16°. R = 921.8 m and t = 9.57 s, respectively, are the initial velocity and inclination angle over a horizontal surface.
Describe a projectile.Any item launched into space with just gravity acting on it is referred to as a projectile. Gravity is the main force affecting a projectile.
Considering that the projectile's initial speed is 80 m/s and its inclination towards the horizontal is 16 degrees,
Range R: R = ([tex]v0^2/g[/tex]) * sin(2α)
Flight time t: t = (2 * v0 * sinα) / g
Plugging in the given values, we get:
Range R: R = ([tex]80^2/9.81[/tex]) * sin(2*16°) ≈ 921.8 m
Flight time t: t = (2 * 80 * sin16°) / 9.81 ≈ 9.57 s
To calculate the slant range and flight time for the depicted projectile, we can use the following equations:
Slant range Ri: Ri = √([tex]H^2 + R^2[/tex]), where H is the height of the elevated position
Flight time ti: ti = (2 * v0 * sinα + √([tex]4 * v0^2 * sin^2α + 8 * H * g[/tex])) / (2 * g)
From the diagram, it appears that the elevated position is approximately 150 meters above the ground, so we can use H = 150m in our calculations:
Slant range Ri: Ri = √([tex]150^2 + 921.8^2[/tex]) ≈ 1013.7 m
Flight time ti: ti = (2 * 80 * sin16° + √([tex]4 * 80^2 * sin^2[/tex](16°) + 8 * 150 * 9.81)) / (2 * 9.81) ≈ 12.4 s.
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A 230 g air track glider is connected to a string hanging over a frictionless pulley. A 100g mass hangs from the other end of the string. Find the acceleration of each.
Answer:
a= 2.97m/s²
Explanation: mg = (M+m)a, with M the mass of the g
a= 100(230+100)g .
Draw a ray diagram to locate an image formed by a lens when a object is placed at 2f
The ray diagram of the lens at 2f is shown in the image attached.
What is a ray diagram?
A ray diagram is a diagram used to illustrate the behavior of light as it travels through a system of optical components such as lenses, mirrors, or prisms. The diagram shows the path of light rays from an object, through the optical system, to form an image.
Ray diagrams are commonly used in optics to predict the behavior of light and to design optical systems for various applications, such as telescopes, microscopes, cameras, and eyeglasses.
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I hope you can help me with this problem thank you.
Assume the two radii of the thin convex lens surfaces to be equal for each of the two convex lenses used in this experiment and the index of refraction of their glass to be 1.5. From the relationship given in equation, determine the radius of curvature for each of the two thin convex lenses that you need
The radius of curvature for each surface of the thin convex lenses is 4 times the focal length (f).
A convex lens is what?Two spherical surfaces often make up an optical lens. The lens is referred to as a biconvex lens or just a convex lens if those surfaces are curved outwards. These lenses have the ability to focus an outside light beam to a spot on the opposite side by converging it.
Is the convex lens's radius of curvature positive or negative?The radius of curvature is always positive for convex lenses and always negative for concave lenses.
The relationship between the focal length (f), radius of curvature (R), and index of refraction (n) for a thin convex lens is,
1/f = (n - 1) * (1/R1 - 1/R2)
where R1 and R2 are the radii of curvature of the two surfaces of the lens.
Since the two radii of curvature for each of the two convex lenses are equal, we can simplify the equation to:
1/f = (n - 1) * (2/R)
R = radius of curvature for each surface of the lens.
We can rearrange this equation
R = 2 * f / (n - 1)
Substituting the given values of n = 1.5
R = 2 * f / 0.5
R = 4 * f
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