So, like my previous question, how do you solve for 4/5 - 1/2?

Answer:

108N

Explanation:

According to law of gravitation which states that "the force

of attraction between two masses in a gravitational field is directly proportional to the product of their masses and inversely proportional to the square of their distance between them.

Mathematically, F = Gm1m2/r²

Where;

m1 and m2 are the masses of the object

G is the gravitational constant

r is the distance between the masses

If Objects 1 and 2 attract each other with a gravitational force of 36.0 units, we will have;

36 = Gm1m2/r²... (1)

If the mass of Object 2 is tripled, the gravitational force becomes

F = Gm1(3m2)/r²

F = 3Gm1m2/r²... (2)

Dividing equation 1 by 2, we will have;

36/F = {Gm1m2/r²}/3Gm1m2/r²

36/F = Gm1m2/r²×r²/3Gm1m2

36/F = 1/3

Cross multiplying we have

F = 36×3

F = 216N

Therefore, the gravitational force when the second object is tripled is 108N

Final answer:

The new gravitational force, when the mass of Object 2 is tripled and the distance between the objects remains the same, would be 108.0 units.

Explanation:

If the mass of Object 2 is tripled, according to the law of universal gravitation, the gravitational force between two objects is directly proportional to the product of their masses. The gravitational force can be described by the formula:

F = G \( \frac{m1 \cdot m2}{d²} \)

Where F is the gravitational force, G is the gravitational constant, m1 and m2 are the masses of the objects, and d is the distance between the centers of the two objects.

In the student's question, if the mass of Object 2 is tripled, and the distance remains unchanged, the new gravitational force would be:

Original force: 36.0 units
New force: 36.0 units \( \times 3\)
New force: 108.0 units

This is because tripling the mass of Object 2 causes the force to triple, as the force is directly proportional to the product of the two masses.

Answer:

C) Lithostatic pressure

Explanation:

An earthquake is what happens when two blocks of the earth suddenly slip past one another. The surface where they slip is called the fault or fault plane.

In the Earth the pressure due to the weight of overlying rocks is a uniform stress and is referred to as confiningstress. If stress is not equal from all directions then the stress is a differential stress. Three kinds of differential stress occur. Shear stress, which result in slippage and translation.

Answer:

Lithostatic pressure

Explanation: when you search up what lithostatic means you will see.

Answer:

60 m/h

Explanation:

[tex]v = x \div t[/tex]

so v = 150 / 2.5 = 60 m/h

The power in horsepower is 40.1 hp

Explanation:

We start by calculating the work done by the airplane during the climb, which is equal to its change in gravitational potential energy:

[tex]W=(mg)\Delta h[/tex]

where

mg = 11,000 N is the weight of the airplane

[tex]\Delta h = 1.6 km = 1600 m[/tex] is the change in height

Substituting,

[tex]W=(11,000)(1600)=17.6\cdot 10^6 J[/tex]

Now we can calculate the power delivered, which is given by

[tex]P=\frac{W}{t}[/tex]

where

[tex]W=17.6\cdot 10^6 J[/tex] is the work done

[tex]t=9.8 min \cdot 60 = 588 s[/tex] is the time taken

Substituting,

[tex]P=\frac{17.6\cdot 10^6 J}{588}=2.99\cdot 10^4 W[/tex]

Finally, we can convert the power into horsepower (hp), keeping in mind that

[tex]1 hp = 746 W[/tex]

Therefore,

[tex]P=\frac{2.99\cdot 10^4}{746}=40.1 hp[/tex]

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Final answer:

The power accomplished by an airplane weighing 11,000 N climbing to a height of 1.6 km in 9.8 min is calculated by determining the change in gravitational potential energy and then converting that work into power over the time taken. The result is approximately 40.13 horsepower.

Explanation:

To calculate the power accomplished, we can use the work-energy principle where the work done by the airplane engines to climb to the height is equal to the change in gravitational potential energy. The gravitational potential energy (GPE) change is calculated as the weight of the airplane times the height it reaches. The formula for GPE is:

GPE = weight × height

For the airplane problem, we have:

GPE = 11,000 N × 1.6 km = 11,000 N × 1600 m = 17,600,000 J (joules)

Next, we convert 9.8 minutes to seconds to find the power in watts. Power is work (or GPE here) divided by time:

Time = 9.8 minutes × 60 seconds/minute = 588 seconds

Power in watts = GPE / Time

Power in watts = 17,600,000 J / 588 s ≈ 29,932 W (watts)

To convert power to horsepower, we use the conversion factor 1 horsepower ≈ 746 watts:

Power in horsepower = Power in watts / 746

Power in horsepower ≈ 29,932 W / 746 ≈ 40.13 hp

Therefore, the accomplished power in horsepower while the airplane climbs to a height of 1.6 km in 9.8 min is approximately 40.13 hp.

Answer:

F = [tex]\frac{-Gm_{1}m_{2} }{r^{2} }[/tex].

Explanation:

Gravitational force between two objects of masses [tex]m_{1},  m_{2}[/tex] kept at a distance r is given by the formula

F = [tex]\frac{-Gm_{1}m_{2} }{r^{2} }[/tex]

Here ,[tex]m_{1}[/tex] = 2m

         [tex]m_{2}[/tex] = [tex]\frac{m}{2}[/tex]

Thus , F = [tex]\frac{-G.2m.\frac{m}{2} }{r^{2} }[/tex]

          F = [tex]\frac{-Gm_{1}m_{2} }{r^{2} }[/tex].

Answer:

The west axis component of walk is, A = 5 miles

The east axis component of walk is, B = 8 miles

Explanation:

Given data,

The displacement of hiker south of west, R = 9.4 miles

The angle formed south of west, Ф = 60°

The vector components along,

                   the west axis is

                                      A = R cosФ

                                       A = 9.4 x cos 60

                                       A = 4.7 miles

                                        A = 5 miles

The west axis component of walk is, A = 5 miles

                    the south axis is

                                      B = R sinФ

                                       B = 9.4 sin 60

                                        B = 8.14 miles

                                         B = 8 miles

The east axis component of walk is, B = 8 miles

Answer:

Ax= -4.7

Ay= -8.1

Explanation:

A. the direction the object is moving in will not change.

B. the acceleration of the object will be 0 m/s2

Explanation:

We can answer this problem by using Newton's second law of motion:

[tex]\sum F = ma[/tex]

where

[tex]\sum F[/tex] is the net force acting on an object

m is the mass of the object

a is its acceleration

In this problem, all the forces acting on the object are balanced, therefore the net force is zero:

[tex]\sum F=0[/tex]

which means that also the acceleration is zero:

[tex]a=0[/tex]

Acceleration is equal to the rate of change of velocity: therefore, zero acceleration means that the velocity of the object does not change. We can now analyze the given statements:

A. the direction the object is moving in will not change.  --> TRUE, because the velocity is not changing.

B. the acceleration of the object will be 0 m/s2  --> TRUE, as we stated above

c. the object will not be in motion.  --> FALSE: we just know that its velocity is constant, but it can be different from zero

D. the velocity of the object will be 0 m/s. --> FALSE, for the same reason stated in C

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Final answer:

When all of the forces on an object are balanced, the object will not change its direction of motion, its acceleration will be 0 m/s^2, and its velocity will be 0 m/s.

Explanation:

When all of the forces acting on an object are balanced, several things occur:

The work done on the block is B) 400 J

Explanation:

The work done when lifting an object is equal to the change in gravitational potential energy of the object:

[tex]W=mg \Delta h[/tex]

where

m is the mass of the object

g is the acceleration of gravity

[tex]\Delta h[/tex] is the change in height of the object

In this problem we have:

(mg) = 100 N is the weight of the block (product of mass and acceleration of gravity)

[tex]\Delta h = 6 m - 2 m = 4 m[/tex] is the change in heigth of the object

Substituting, we find the work done:

[tex]W=(100)(4)=400 J[/tex]

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Answer:

400j

Explanation:

took test and 100 times 4 equals 400

Final answer:

In the scenario of a child swinging on a rope, the acting forces are the gravity force, tension force, and air resistance force. Normal force and applied force are not directly acting on the child in the swing, and friction force is not a significant factor in this context.

Explanation:

When a child is swinging through the air while holding onto a tree rope, the child is subject to several forces. Among the forces listed, the following forces act upon the child:

Gravity Force: This is also known as weight, represented by W in the free-body diagram. It pulls the child directly downwards towards the center of the Earth.

Tension Force: Represented by T in the free-body diagram, this force is exerted by the rope on the child, pulling upwards and often inclined depending on the motion of the swing.

Air Resistance Force: As the child swings, they encounter air resistance that opposes their motion through the air.

The normal force does not act upon the child while they are swinging because there is no perpendicular contact with a solid surface like the ground or a table. Applied force would be present if someone or something else is pushing the child to start the swinging motion or to keep it going. However, for the child simply swinging, we do not consider an ongoing applied force. Friction force is usually associated with contact between two surfaces, such as the wheels of a wagon rolling on the ground. Therefore, friction is not a significant factor when considering a child swinging on a rope.

Using this understanding, we can create a free-body diagram that includes only external forces such as gravity force, tension force, and air resistance force to analyze the child's motion.

Answer:

A. 88,200 J

Explanation:

Given data,

The mass of the crate, m = 200 kg

The height of the shipping container, h = 45 m

The gravitational of a body is possessed by the body due to the virtue of its position.

The formula for gravitational potential energy is,

                                 P.E = mgh joules

Substituting the values

                                  P.E = 200 x 9.8 x 45

                                         = 88,200 J

Hence, the gravitational potential energy of the crate is, P.E = 88,200 J

Galileo was taught Aristotelian physics at the university of Pisa. Galileo's discovery was that the period of swing of a pendulum is independent of its amplitude--the arc of the swing--the isochronism of the pendulum. Now this discovery had important implications for the measurement of time intervals.

Answer:

you're right it is b....

Answer:

A.) Air

Explanation:

Ap-ex

Answer:

lungs

Explanation:

Similar to other mammal species that live on land and breath air (oxygen), the pair of lungs is the most important part of the respiratory system, which keeps living organisms alive.

Answer:

lungs are part of the respiratory system of tigers

Answer is "  A convex line runs downward from 0 seconds some positive number of meters to some positive number of seconds 0 meters. "

Explanation:

The figure shows Velocity vs Time Graph.

At t1=0, u=10m/s

At t2=5, v=2m/s

Let's calculated the acceleration

[tex]a=\frac{v-u}{t2-t1}[/tex]

[tex]a=\frac{2-10}{5-0}[/tex]

[tex]a=\frac{-8}{5}[/tex]

The equation of distance is given by

[tex]d=ut+\frac{a}{2} t^{2}[/tex]

[tex]d=(10)t+\frac{\frac{-8}{5}}{2} t^{2}[/tex]

[tex]d=10t+\frac{-8}{10} t^{2}[/tex]

[tex]d=10t+\frac{-4}{5} t^{2}[/tex]

[tex]5d=50t-4t^{2}[/tex]

From here, You can plot the graph of above equation by taking several points.

When t=0,

[tex]5d=50(0)-4(0)^{2} = 0m[/tex]

When t=5,

[tex]5d=50(5)-4(5)^{2}[/tex]

[tex]5d=250-100[/tex]

[tex]5d=150[/tex]

[tex]d=30m[/tex]

Similarly,

When t= 3s d=22.8m

When t=4s d=27.2m

Figure shown is graph of Distance vs Time.

Thus, answer is "  A convex line runs downward from 0 seconds some positive number of meters to some positive number of seconds 0 meters. "

Answer:

Your answer is D) A graph with horizontal axis time (seconds) and vertical axis position (meters). A convex line runs downward from 0 seconds some positive number of meters to some positive number of seconds 0 meters.

Explanation:

Answer:

it's 27 meters - answer B

8) The height of the shelf is 2.04 m

9) The gravitational potential energy is 100 J

Explanation:

8)

The gravitational potential energy of an object is given by:

[tex]PE=mgh[/tex]

where

m is the mass of the object

g is the acceleration of gravity

h is the heigth of the object, relative to the ground

For the object in this problem, we have

m = 10 kg

[tex]g=9.8 m/s^2[/tex]

And we know that

PE = 200 J

Therefore we can re-arrange the formula to solve for h, the heigth of the object:

[tex]h=\frac{PE}{mg}=\frac{200}{(10)(9.8)}=2.04 m[/tex]

9)

As before, the gravitational potential energy of the object is given by:

[tex]PE=mgh[/tex]

where in this  case, we have:

m = 10 kg is the mass of the object

h = 2.04 m is the height of the object from the ground

While in this case, the acceleration of gravity on this planet is

[tex]g=4.9 m/s^2[/tex]

Substituting,

[tex]PE=(10)(4.9)(2.04)=100 J[/tex]

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The final velocity is 49.7 m/s downward

Explanation:

The motion of the object is a free fall motion (affected only by the force of gravity), so the object accelerates downward with a constant acceleration of [tex]g=9.8 m/s^2[/tex] (acceleration of gravity). Therefore, we can use the following suvat equation:

[tex]v^2 -u^2 = 2as[/tex]

where

v is the final velocity

u is the initial velocity

a is the acceleration

s is the distance covered

Taking downward as positive direction, we have

u = 11.0 m/s

[tex]a=g=9.8 m/s^2[/tex]

[tex]s=1.3\cdot 10^2 m = 130 m[/tex] (height of the building)

Solving for v, we find the final velocity as the object hits the ground:

[tex]v=\sqrt{u^2+2as}=\sqrt{11.0^2+2(9.8)(120)}=49.7 m/s[/tex]

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The distance covered by the feather is 65.5 m

Explanation:

The motion of the feather is a free-fall motion (affected only by the force of gravity), therefore it is a motion at constant acceleration, and so we can use the following suvat equation:

[tex]s=ut+\frac{1}{2}at^2[/tex]

where

s is the displacement

u is the initial velocity

t is the time

a is the acceleration

In this problem, we have

u = 0 is the initial velocity of the feather

t = 9.00 s is the time interval

[tex]a=g=1.62 m/s^2[/tex] is the acceleration of gravity on the Moon

And solving for s, we find the distance covered by the feather in its fall:

[tex]s=0+\frac{1}{2}(1.62)(9.00)^2=65.6 m[/tex]

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Radiation is the process by which energy is transferred in the form of electromagnetic waves, including visible light, infrared radiation, and ultraviolet radiation. Most of the Sun's energy reaches Earth by b) radiation.

The Sun emits a vast amount of energy through nuclear fusion processes occurring in its core. This energy travels through space in the form of electromagnetic waves and reaches Earth as sunlight. Unlike conduction and convection, which require a medium or material substance to transfer heat, radiation can occur in a vacuum and does not require a physical medium.

The energy from the Sun's radiation is essential for sustaining life on Earth and driving various Earthly processes such as weather, climate, and photosynthesis.

Most of the Sun's energy reaches Earth by b) radiation.

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Answer:

3.8 m/s²

Explanation:

Average acceleration is the change in velocity over change in time.

a = Δv / Δt

a = (25 m/s − 0 m/s) / 6.5 s

a ≈ 3.8 m/s²

Final answer:

The raptor's acceleration is found using the formula a = Δv / t. By substituting the final velocity (25 m/s), initial velocity (0 m/s), and time (6.5 s), we determine the acceleration to be approximately 3.85 m/s².

Explanation:

The question asks us to determine the acceleration of a raptor that changes its velocity from rest to 25 m/s in 6.5 seconds.

To find the acceleration, we can use the formula:

a = Δv / t

Where:

Since the raptor starts from rest, its initial velocity is 0 m/s, and its final velocity is given as 25 m/s. The time taken is 6.5 seconds. Substituting the values into the formula gives:

a = (25 m/s - 0 m/s) / 6.5 s = 25 m/s / 6.5 s = approximately 3.85 m/s²

Therefore, the raptor's acceleration is approximately 3.85 m/s².

Answer:

the change in reaction times for each person

Explanation:

The dependent variable in Arthur's article on the effects of caffeine on human reaction time is the change in reaction times for each person after consuming caffeine or a placebo.

In the described experiment, the dependent variable is the change in the subjects' reaction times after they have been administered varying amounts of caffeine or a placebo. This is because the dependent variable is the factor that the researchers are measuring to see if it changes in response to the manipulation of the independent variable (in this case, the amount of caffeine given to each person). The different doses of caffeine or the placebo (sugar pill) represents the independent variables, because they are what the researchers are manipulating to see if there is an effect on the dependent variable.

Therefore, the correct answer to the question 'In the experiment Arthur read about, what was the dependent variable?' is D. the change in reaction times for each person.

Answer:

A)

Explanation:

The insulator is a material that creates a barrier for the heat transferred, maintaining the temperature of the system almost unaltered. To know what is the best insulator, the experiment needs to be done with an unwrapped can, so that is possible to know how much heat the can be lost, thus letter "d" is incorrect.

The temperature of the water would not achieve 0°C, but the ambient temperature, being in thermal equilibrium, so the letter "b" is also incorrect.

By the data given is already notice the insulator power, because the temperature decreases faster with the paper towel, thus it's not necessary to repeat the experiment only to know which one is better, so the letter "c" is incorrect.

But, it's not possible to affirm that the bubble wrap is the best insulating material, because exists a lot off insulating material that wasn't tested. Besides, the insulation depends on the thickness of the material.

Answer:

A

Explanation:

The term “best” means that there is nothing better. The student cannot conclude that bubble wrap is the best insulator after having tested only two insulating materials. It is the better of two insulators only; it is not the best insulator.

1) The frequency of the clock is 4 Hz

2) The period of the clock is 0.25 s

Explanation:

1)

In a periodic motion, the frequency of the motion is equal to the number of complete cycles per second.

Mathematically:

[tex]f=\frac{N}{t}[/tex]

f is the frequency

N is the number of cycles completed in a time t

For the clock in this problem, we have

N = 88 (number of cycles)

t = 22 s (time interval)

Substituting,

[tex]f=\frac{88}{22}=4 Hz[/tex]

2)

The period of a periodic motion is the time taken for one complete oscillation to occur.

Mathematically, the period is equivalent to the reciprocal of the frequency:

[tex]T=\frac{1}{f}[/tex]

where

T is the period

f is the frequency

Here we have found

f = 4 Hz

So, the period of the clock is

[tex]T=\frac{1}{4}=0.25 s[/tex]

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The frequency and period of the clock is 4Hz and 0.25s respectively.

Given the data in the question;

Number of cycles; [tex]N = 88[/tex]

Time interval; [tex]t = 22s[/tex]

Frequency; [tex]f = \ ?[/tex]

Period; [tex]T = \ ?[/tex]

Frequency is the number of complete cycles occurring per period of time.

Frequency; [tex]f = \frac{N}{t}[/tex]

We substitute in our given values

[tex]f = \frac{88}{22s} \\\\f = 4s^{-1}\\\\f = 4Hz[/tex]

Therefore, the frequency of the clock is 4Hz

Frequency [tex]f[/tex] is also the reciprocal of the period [tex]T[/tex]:

Hence, [tex]T = \frac{1}{f}[/tex]

We substitute in our values

[tex]T = \frac{1}{4s^{-1}} \\\\T = 0.25s[/tex]

Therefore, the period of the clock is 0.25s

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Answer:

The amount of energy required is 31.1692 kJ .

Explanation:

The transitions of water are as follows,

(243K ice to 273K ice to 273K water to 373k water to 373K steam to 393K steam)

The following required data is,

specific heat capacity of ice= 2.1 kJ/kg

specific heat capacity of water= 4.2 kJ/kg

specific heat capacity of ice= 1.996 kJ/kg

specific latent heat of fusion=334 kJ/kg

specific latent heat of vapourisation = 2260 kJ/kg

FORMULAS:-

temperature change=mc(T2-T1)

phase transistion = mL,

where, m=mass , c=specific heat capacity ,L = latent heat of fusion or vapourisation ,(T2-T1)= temparature change

Thus the total amount of heat is,

=mc(T4-T3) + mL + mc(T3-T2) + mL + mc(T2-T1)

=[tex]10(10^{-3} )(2.1)(30)+10(10^{-3} )(334)+10(10^{-3} )(100)(4.2)+10(10^{-3} )(2260) +10(10^{-3} )(20)(1.996)[/tex]

=(0.3)(2.1) + (3.34) + (4.2) +  (22.6) + (0.2)(1.996)

=31.1692 kJ.

Answer:

The displacement of the object is, d = 5V m

Explanation:

Given data,

The time period of displacement, t = 5 s

Let the average velocity of the object be, V = v m/s

If the object has an initial velocity, V and final velocity v, then the average velocity of the object is,

                                       V = (u + v) / 2

The formula for velocity, displacement and time is,

                                       V = d / t

∴                                        d = V x t

On substitution,

                                           d = V x 5 s

                                               = 5V m

Substituting the value of V gives the value of displacement,

Thus, the displacement of the object is, d = 5V m

5V m is the displacement of the object.

Displacement is defined as the change in position of an object. It is represented as an arrow that points from the initial position to the final position.

According to the question,

Time period , t = 5 s

Let, average velocity of the object is V = v m/s

Assume the initial velocity, V and final velocity v,

So, the average velocity of the object is,

[tex]V = \frac{(u + v)}{2}[/tex]

The relationship between velocity, displacement and time is,

[tex]V = \frac{d}{t}[/tex]

[tex]d = V * t[/tex]

Put t =5s                              

[tex]d = V * 5 s[/tex]

[tex]d = 5V m[/tex]

Therefore,

The displacement of the object is, d = 5V m

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Answer:

it can explode lol

Explanation:

Historically, massive stone or metal balls were fired from cannons, which are big, powerful guns that are typically mounted on two or four wheels.

Because they result from the existence of quantitative characteristics of physical systems, physical variables provide the basis of the mathematical formulation of physics. It is convenient to begin with a thorough investigation of the physical variables in a physical theory before analyzing its mathematical structure.

When a loaded cannon is fired, some of the physical variables get affected

These are few physical variables which get affected when loaded cannon is fired.

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Answer:

The density of the material is defined as the mass of the material to its volume.

                           ρ = M / V

Explanation:

The density of the material is a scalar quantity.

If the mass and the volume of the material is known the density of the material can be calculated using the formula,

                                     ρ = M / V

The mass of the material can be found using a physical balance.

The volume of a geometrically symmetrical material can be found using the geometrical measurement. For a brick,

                                              V = l x b x h

For non-geometrically shaped material the volume can be found from the displacement method using water.

The speed of the ball is B. 5 meters per second

Explanation:

For an object in uniform motion (= at constant velocity), the speed can be calculated using the equation

[tex]v=\frac{d}{t}[/tex]

where

v is the speed

d is the distance covered

t is the time taken

For the ball in this problem:

d = 50 m is the distance covered

t = 10 s is the time taken

Substituting, we find the speed:

[tex]v=\frac{50}{10}=5 m/s[/tex]

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