A 40.0 kg child is in a swing that is attached to ropes 2.00 m long. Find the gravitational potential energy associated with the child relative to the child’s lowest position under the following conditions:

a. when the ropes are horizontal
b. when the ropes make a 30.0° angle with the vertical
c. at the bottom of the circular arc

The magnitude of the position vector :r is approximately 7.32 m. When the centripetal acceleration is directed due east, :r will also be due east. When the centripetal acceleration is directed due south, :r will also be due south.

The magnitude of the position vector :r can be determined using the equation :a = :v^2 / r where :v is the speed of the man and :a is the centripetal acceleration. Rearranging the equation, we get :r = :v^2 / :a. Substituting the given values, we find :r = (3.66^2) / 1.83 which is approximately 7.32 m.

When the centripetal acceleration is directed due east, the position vector :r will be due east. When the centripetal acceleration is directed due south, the position vector :r will be due south.

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Answer:

10,624J

Explanation:

KE = 1/2 m*v²

KE = 1/2 83*16²

KE = 41.5*256

KE = 10,624J

Answer:

In m/s^2:

a=11.3778 m/s^2

In units of g:

a=1.161 g

Explanation:

Since the racing greyhounds are capable of rounding corners at very high speed so we are going use the following formula of acceleration for circular paths.

[tex]a=\frac{v^2}{r}[/tex]

where:

v is the speed

r is the radius

Now,

[tex]a=\frac{16^2}{45/2}\\ a=11.3778 m/s^2[/tex]

In g units:

[tex]a=\frac{11.3778\ g}{9.8}\\ a=1.161\ g[/tex]

Answer: 75.05N

Explanation:

According to newton's second law,

Force = mass×acceleration

Given mass = 5.0kg

Acceleration = change in velocity/time

Velocity = change in displacement/position/time i.e dy/dt

Given position of the particle as y(t)=(2.80 m/s)t +(0.61 m/s)t³

dy/dt = 2.80 + 3(0.61)t²

V = dy/dt = 2.80 + 1.83t²

Acceleration (a) = dv/dt = 2(1.83)t

dv/dt = 3.66t

To get the force when t =4.10second

dv/dt @ t = 4.10s will be 3.66(4.10)

acceleration = 3.66×4.10 = 15.01m/s²

Magnitude of the force F = ma

F = 5.0kg × 15.01m/s²

F = 75.05N

To find the tension in the silk strand, we can use the formula: T = (4 x L x f^2 x m x pi^2 x r^2) / (g x rho x sin(theta)). Plugging in the given values, we can solve for T.

To find the tension in the silk strand, we can use the formula:

T = (4 x L x f^2 x m x pi^2 x r^2) / (g x rho x sin(theta))

Where:

Plugging in the given values:

By substituting these values into the equation and solving for T, we can find the tension in the silk strand.

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The spider must adjust the tension in a 16 cm strand of silk to approximately 0.185 N to achieve a resonance frequency of 200 Hz.

The formula for the fundamental frequency (f) of a stretched string is:

f = (1 / 2L) * √(T / μ)

Where:

First, we calculate the linear mass density (μ) of the spider silk, using:

μ = ρ * A

Where:

Given the diameter (d) of the strand is 0.0020 mm or 2.0 x 10⁻⁶ m, the cross-sectional area can be calculated as:

A = π * (d / 2)²

A = π * (1.0 x 10⁻⁶)² = π x 10⁻¹² m²

Therefore:

μ = 1300 kg/m³ * π x 10⁻¹² m² = 4.084 x 10⁻⁹ kg/m

Using the frequency formula, rearranged to solve for tension (T):

T = (2Lf)² * μ

T = (2 * 0.16 m * 200 Hz)² * 4.084 x 10⁻⁹ kg/m

T = 184.8272 x 10⁻⁹ N

T ≈ 0.185 N

The tension the spider must adjust to achieve a resonance at 200 Hz for a 16 cm long strand of silk is approximately 0.185 N.

Answer:

0.0257259766982 m

Explanation:

[tex]P_2[/tex] = Atmospheric pressure = 101325 Pa

[tex]d_1[/tex] = Initial diameter = 1.5 cm

[tex]d_2[/tex] = Final diameter

[tex]\rho[/tex] = Density of water = 1000 kg/m³

h = Depth = 40 m

The pressure is

[tex]P_1=P_2+\rho gh\\\Rightarrow P_1=101325+1000\times 9.81\times 40\\\Rightarrow P_1=493725\ Pa[/tex]

From ideal gas law we have

[tex]\dfrac{P_1V_1}{T_1}=\dfrac{P_2V_2}{T_2}\\\Rightarrow \dfrac{P_1\dfrac{4}{3\times8}\pi d_1^3}{T_1}=\dfrac{P_2\dfrac{4}{3\times8}\pi d_2^3}{T_2}\\\Rightarrow \dfrac{P_1d_1^3}{T_1}=\dfrac{P_2d_2^3}{T_2}\\\Rightarrow d_2=(\dfrac{P_1d_1^3T_2}{P_2T_1})^{\dfrac{1}{3}}\\\Rightarrow d_2=(\dfrac{493725\times 0.015^3\times (20+273.15)}{101325\times (10+273.15)})^{\dfrac{1}{3}}\\\Rightarrow d_2=0.0257259766982\ m[/tex]

The diameter of the bubble is 0.0257259766982 m

Answer:

heat

Explanation:

Answer:

3.3 m/s

Explanation:

The question is incomplete, here is the complete question:

After skiding down a snow-covered hill on an inner tube, Ashley is coasting across a level snowfield at a constant velocity of 2.7 m/s. Miranda runs after her at a velocity of 4.1 m/s and hops on the inner tube. How fast do the two of them slide across the snow together on the inner tube? Ashley's mass is 71 kg and Miranda's is 58 kg. Ignore the mass of the inner tube and any friction between the inner tube and the snow.

SOLUTION:

mass of Ashley (Ma) = 71 kg

mass of Miranda (Mm) = 58 kg

initial velocity of Ashley (Va) = 2.7 m/s

initial velocity of Miranda (Vm) = 4.1 m/s

Find the final velocity (Vf) at which they both slide together

from the conservation of momentum, initial momentum = final momentum

Ma.Va + Mm.Vm = (Ma + Mm) . Vf

[tex]Vf = \frac{Ma.Va + Mm.Vm}{Ma + Mm} \\ Vf=\frac{(71 x 2.7) + (58 x 4.1)}{71+58}[/tex]

Vf = (191.7 +237.8) / (129)

Vf = 3.3 m/s

Answer:

The correct answer is: Free Jazz.

Explanation:

Free jazz is a music genre developed around the year 1964 and is considered a subgenre of Jazz where musicians are asked to break the traditional conventions related to the interpretation of jazz music.

In free jazz, the most important technique is improvisation, where musicians simply perform and play their instruments freely.

The key to performing free jazz is to try to express spontaneous feelings through the instrument, while not being aware of certain conventions traditional to jazz music.

In this particular case, to the question Which style of jazz music released performers from traditional rules and placed importance on each performer contributing his or her own feelings for the music in the moment, the correct answer is: Free Jazz.

Answer:

[tex]v_1=\frac{L}{t_1}[/tex]

[tex]v_2=\frac{-L}{t_2}[/tex]

[tex]v_{avg}=\frac{L-L}{t_1+t_2} =0[/tex]

Explanation:

Given:

Velocity of the athlete from start to the end of the pool in positive direction:

[tex]\rm velocity=\frac{displacement}{time}[/tex]

[tex]v_1=\frac{L}{t_1}[/tex]

Velocity of the athlete from end returning to the start of the pool in negative direction:

Here we have the negative displacement.

[tex]v_2=\frac{-L}{t_2}[/tex]

Now the total average velocity:

[tex]\rm v_{avg}=\frac{total\ displacement}{total\ time}[/tex]

Here we have total displacement as zero because the athlete is finally at the initial starting point.

so,

[tex]v_{avg}=\frac{L-L}{t_1+t_2} =0[/tex]

Final answer:

The symbolic average velocities of an athlete swimming the length of a pool are positive for the trip in one direction (v1 = L / t1) and negative for the return trip (v2 = -L / t2). These reflect the direction of motion related to the positive x-direction.

Explanation:

Average Velocities of an Athlete in a Pool

The average velocity of the athlete for the trip in the positive x-direction is the length of the pool L divided by the time taken t1, which can be symbolically written as v1 = L / t1. Since the swimmer is moving in the positive x-direction, the average velocity v1 is taken as positive.

For the return trip in the negative x-direction, the average velocity is the negative of the length of the pool L divided by the time taken t2, represented as v2 = -L / t2. The average velocity v2 is negative because the swimmer is moving in the opposite direction to the initial positive x-direction.

The concept of average velocity involves both the displacement of the swimmer and the time taken. If, at the end of two trips (to the end of the pool and back), the swimmer's displacement is zero (since they return to the start), the average velocity for the entire trip is also zero.

Answer:

The sound intensity heard standing 20.5 m away = 0.0000343 W/m² = 3.43 × 10⁻⁵ W/m²

Explanation:

Intensity of sound at some distance r away is calculated as (power of the sound/surface area of wall of imaginary sphere at distance r)

Power of the sound = 0.181 W

Surface area of wall of imaginary sphere = 4πr² = 4π(20.5²) = 5281.02 m²

Intensity = 0.181/5281.02 = 0.0000343 W/m² = 3.43 × 10⁻⁵ W/m²

Answer:

Net force = 129.4, Force as multiple of weight of her hand = 18.84

Explanation:

Given Data:

Total body weight = 56.0 kg   ;

no. of turns = 2.5/second        ;

hand to hand distance = 1.5m ;

weight of hand = 1.25% of body weight ;

Solution:

mass of hand = [tex]\frac{1.25}{100}[/tex]*56 = 0.7kg ;

radius = d/2 = 1.5/2 = 0.75m     ;

Now we need to find velocity, as we know that velocity can be calculated by dividing distance by time

v = d/t = [tex]\frac{2.5*2*3.14*0.75}{1}[/tex] = 11.775 m/s or 12 m/s;

a.

The formula to calculate force is given as

F = mv²/r = (0.7*11.775²)/0.75 = 129.4 N

b.

To calculate force as multiple of weight on her hand, we need to calculate the gravitational force W on her hand first.

W = gm = 9.81 * 0.7 = 6.867 N

Now the wieght on her hand can be represented by

[tex]\frac{Force_{net} }{weight of hand}[/tex]  = 129.4 / 6.867 = 18.84

The force that the ice skater exerts on her hand (150N) is roughly 22 times the weight of her hand (6.86N). She achieves this by spinning with her arms outstretched.

The skater's hand, as given by biometric measurements, makes up about 1.25% of her body weight. Since her body weight is 56.0kg, her hand weight would be 0.0125 * 56.0kg = 0.7kg. In terms of newtons (N), when we consider the acceleration due to gravity as approximately 9.8 m/s², the weight of her hand becomes 0.7kg * 9.8 m/s² = 6.86N. Thus, if we're asked to express the force that her wrist exerts on her hand (150N) as a multiple of the weight of her hand, we'll divide the two forces. Namely, F_hand/F_weight = 150N/6.86N which is approximately 21.86. Therefore, the force her wrist exerts on her hand is roughly 22 times the weight of her hand.

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Answer:

Explanation:

Given

Halley's closest distance from sun is [tex]r_1=0.59\ A.U.[/tex]

Greatest distance is [tex]r_2=35\ A.U.[/tex]

Comet's speed at closest approach is [tex]v_1=47\ km/s[/tex]

As there is no external torque so angular momentum of comet about the sun is conserved

[tex]L_1=L_2[/tex]

[tex]mr_1^2\times \omega _1=mr_2^2\times \omega _2[/tex]

where [tex]\omega =angular\ velocity [/tex]

This can be written as [tex]\omega =\frac{v}{r}[/tex]

Therefore  

[tex]mr_1^2\times \frac{v_1}{r_1}=mr_2^2\times \frac{v_2}{r_2}[/tex]

[tex]r_1\times v_1=r_2\times v_2[/tex]

[tex]0.59\times 47=35\times v_2[/tex]

[tex]v_2=0.79\ km/s[/tex]  

Answer:

The car that went 54 km in 2/3h was faster, 5/4 times faster than the other car

Explanation:

Average speed of a car is the ratio between the displacement [tex]\Delta x [/tex] and the time (t) it takes to do that displacement:

[tex]V_{avg}=\frac{\Delta x}{t} [/tex]

So, for the first car:

[tex]V_{avg1}=\frac{60km}{\frac{5h}{6}} =72\frac{km}{h} [/tex] (1)

for the second car we have:

[tex]V_{avg2}=\frac{60km}{\frac{2h}{3}} =90\frac{km}{h} [/tex] (2)

So, the second cart is faster than the first one. To find how many times divide speed 2 by speed 1:

[tex]\frac{90}{72}=\frac{5}{4} [/tex]

Answer : The time passed in years is [tex]1.49\times 10^4\text{ years}[/tex]

Explanation :

Half-life = 5000 years

First we have to calculate the rate constant, we use the formula :

[tex]k=\frac{0.693}{t_{1/2}}[/tex]

[tex]k=\frac{0.693}{5000\text{ years}}[/tex]

[tex]k=1.39\times 10^{-4}\text{ years}^{-1}[/tex]

Now we have to calculate the time passed.

Expression for rate law for first order kinetics is given by:

[tex]t=\frac{2.303}{k}\log\frac{a}{a-x}[/tex]

where,

k = rate constant  = [tex]1.39\times 10^{-4}\text{ years}^{-1}[/tex]

t = time passed by the sample  = ?

a = let initial amount of the reactant  = X

a - x = amount left after decay process = [tex]\frac{X}{8}[/tex]

Now put all the given values in above equation, we get

[tex]t=\frac{2.303}{1.39\times 10^{-4}}\log\frac{X}{(\frac{X}{8})}[/tex]

[tex]t=14962.706\text{ years}=1.49\times 10^4\text{ years}[/tex]

Therefore, the time passed in years is [tex]1.49\times 10^4\text{ years}[/tex]

Answer:

v(t) = 27 units

Explanation:

The function s(t) represents the position of an object at time t moving along a line such that,

[tex]s(2)=146[/tex]

and

[tex]s(6)=254[/tex]

We need to find the average velocity of the object over the interval of time [2,6]. The velocity of the object is equal to the total distance divided by time. It is given by :

[tex]v(t)=\dfrac{s(6)-s(2)}{6-2}[/tex]

[tex]v(t)=\dfrac{254-146}{6-2}[/tex]

v(t) = 27 units

So, the  average velocity of the object is 27 units. Hence, this is the required solution.

Answer: c) with the same brightness

Explanation: The load in this case the bulb, is not polarized ( it has no positive and negative points) thus any connection relative to the battery (source) will have no effect on it brightness.

Also, brightness is a function of current and in this case the voltage ( from battery) and resistance of load (bulb) is constant, and according to ohms law (V=IR) if the current is constant at the first connection, it will be the same at the reversed connection.

Final answer:

When a battery is reversed and reconnected to a lightbulb, the bulb will glow with the c) same brightness because the alteration does not change the magnitude of the voltage or the resistance in the circuit.

Explanation:

When a battery is reversed and reconnected to a lightbulb, the bulb will glow with the same brightness. This is because the brightness of a bulb in a simple circuit primarily depends on the voltage across the bulb and the resistance in the circuit. Reversing the battery does not change the magnitude of the voltage or the resistance; it merely changes the direction of current flow.

In addition to this, lightbulbs, being resistive elements, respond to the magnitude of the current. As long as the total voltage remains the same, reversing the battery's specific direction does not affect the brightness, thus the correct answer is (c) with the same brightness.

Explanation:

First we will convert the given mass from lb to kg as follows.

        157 lb = [tex]157 lb \times \frac{1 kg}{2.2046 lb}[/tex]

                   = 71.215 kg

Now, mass of caffeine required for a person of that mass at the LD50 is as follows.

         [tex]180 \frac{mg}{kg} \times 71.215 kg[/tex]

         = 12818.7 mg

Convert the % of (w/w) into % (w/v) as follows.

      0.65% (w/w) = [tex]\frac{0.65 g}{100 g}[/tex]

                           = [tex]\frac{0.65 g}{(\frac{100 g}{1.0 g/ml})}[/tex]

                           = [tex]\frac{0.65 g}{100 ml}[/tex]

Therefore, calculate the volume which contains the amount of caffeine as follows.

   12818.7 mg = 12.8187 g = [tex]\frac{12.8187 g}{\frac{0.65 g}{100 ml}}[/tex]

                       = 1972 ml

Thus, we can conclude that 1972 ml of the drink would be required to reach an LD50 of 180 mg/kg body mass if the person weighed 157 lb.

Answer:

Technician B

Explanation:

The current amp value at the battery position is the current value. The current is the same everywhere for a series circuit without any connecting points. The current at the position of the battery is the same as in each resistor position.

Final answer:

Technician B is correct: current is the same in all parts of a series circuit. Technician A is incorrect: current divides in the branches of a parallel circuit and is not the same. The sum of branch currents equals the total current in parallel circuits.

Explanation:

Understanding Current in Series and Parallel Circuits

Technician B is correct when they say current is the same everywhere in a series circuit. In a series circuit, there is only one path for the current to flow, thus the current (I) is identical through any component in the series, as stated: I = I1 = I2 = I3. This principle is known as the first principle of series circuits. On the other hand, Technician A is incorrect in suggesting current is the same in each branch of a parallel circuit. In parallel circuits, the current divides at each junction and the total supplied current is the sum of the currents in the various branches.

So, in summary, in a series circuit, the current is constant through all components, and the total voltage drop across all components adds up to the voltage supplied by the source. In a parallel circuit, meanwhile, each resistance experiences the same voltage difference, while the current through each branch may vary depending on the resistance of that branch.

The seesaw will average out a little bit, and not be as tilted to one side as before.

Answer:

2 and 4

Explanation:

Since it is at a position Q it is stationary ball, for a body to be at a point two opposite forces must act on it

Answer:

d = 78 [km]

Explanation:

The displacement shift was from Tipton to Iowa city, so we have:

d1 = 27[km]

Then he travels back for 15[km]

d2 = 15[km]

Finally he returns back to Iowa city the displacement 36 [km]

d3 = 36[km]

d = d1 + d2 + d3

d = 27 + 15 + 36

d = 78 [km]

Answer:

h= 161.06 m

Explanation:

Given that

Speed of the sound ,C= 343 m/s

Total time ,t= 6.2 s

lets take the depth of the well = h

The time taken by stone before striking the water = t₁

we know that

[tex]h=\dfrac{1}{2}gt_1^2[/tex]

[tex]t_1=\sqrt{\dfrac{2h}{g}}[/tex]

The time taken by sound =t₂

[tex]t_2=\dfrac{h}{343}[/tex]

The total time

t = t₁+ t₂

[tex]6.2 = \sqrt{\dfrac{2h}{g}}+\dfrac{h}{343}[/tex]

[tex]6.2 = \sqrt{\dfrac{2h}{9.81}}+\dfrac{h}{343}[/tex]

Now by solving the above equation we get

h= 161.06 m

Therefore the depth of the well will be 161.06 m.

Answer:

The net electric field = 1016.96 x 10 raised to power 3 N/C

Explanation:

The detailed steps and mathematical explanation is as shown in the attached file.

Answer:

Magnitude = 4.056 m

Direction = 42.3⁰

Explanation:

The vector is resolved in terms of the vertical and horizontal components. Let's look each of these separately.

The vector 4.40 is directed East. This automatically becomes a horizontal component.

But we know that there is a vector 3.40 North West. The angle the vector makes with the horizontal is 61⁰.

Resolving the vectors should yield the horizontal and vertical components:

Horizontal components

The first component is 4.40 m

The second one is derived by resolving 3.40 to the horizontal like this 3.40 × - cos 61⁰ = -1.648 m

Adding the horizontal component gives 4.40 m + ( -1.648 m) = 2.752 m

Vertical components

Resolve 3.40 with the angle 61⁰ like this: vertical comp = 3.41 × sin 61

                                                                                           = 2.98 m

The magnitude is given by √[(2.98)²+ (2.752)²] = 4.056 m Ans

The direction us given by tan⁻¹ (2.98/2.752) = 42.3⁰ Ans

The energy is derived from A.sun.

Explanation:

Answer:

Explanation:

We know that flux is defined as the density of any energy field passing through a given area parallel to the area vector.

Mathematically:

[tex]\phi=\bar E.A\cos\theta[/tex]

where:

[tex]\phi=[/tex] flux through the area

[tex]A=[/tex] area of concern

[tex]\bar E=[/tex] density of energy field per unit area

[tex]\theta=[/tex] angle between the energy field lines and the normal to area.

When we hold a bucket in the rain then assuming that the base of the bucket is normal to the direction of rainfall then the angle between the area vector and the rain drop is zero when observed from inside.

The angle between the raindrops and the surface area of the bucket is 180 degrees. Hence the flux will be negative and in the outward direction of the bucket.

The value of flux will be zero when the base of the bucket has been cut and then hold in rain.

The electric flux can be defined as the property of an electric field that shows the number of electric field lines intersecting a given area.

The electric flux can be written in an equation form as given below.

[tex]\phi = EA cos\theta[/tex]

Where [tex]\phi[/tex] is the electric flux, E is the electric field, A is the area of surface and [tex]\theta[/tex] is the angle between the electric field lines and the normal (perpendicular) to A.

Let us consider that the base of the bucket is normal to the direction of the rainfall when we hold the bucket in rain. In this case, the angle between the raindrops and the normal to the surface will be zero inside the bucket.

From the outer surface, the angle formed between the surface area of the bucket and the direction of the rain is 180 degrees. When we put the value of the angle in the formula of flux, we will get a negative flux for the angle of 180 degrees in the outward direction of the bucket.

The flux depends on the surface area. If we cut the base of the bucket and hold it in rain then there will be no surface area that is intersecting by the rainfall. Hence the value of flux will be zero for the no surface area of the bucket.

To know more about the flux, follow the link given below.

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A. Hannah should choose copper for her pot because it has the lowest specific heat, and  she should choose wood for her spoon because it has the highest specific heat

Explanation:

The specific heat capacity of a substance is the amount of heat required to increase the temperature of 1 kg of the substance by 1 degree.

Mathematically:

[tex]C=\frac{Q}{m\Delta T}[/tex]

where

Q is the amount of heat supplied to the substance

m is the mass of the subtsance

[tex]\Delta T[/tex] is the increase in temperature

This means that:

In this situation, we want:

Therefore, the most reasonable choice in this situation is:

A. Hannah should choose copper for her pot because it has the lowest specific heat, and  she should choose wood for her spoon because it has the highest specific heat

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Answer:

Growth of Bread Mold

Explanation:

The controlled variables are the type of containers used and also the different temperatures.

In Sarah's experiment about the influence of temperature on bread mold, the dependent or responding variable is the growth of bread mold. Her experiment is structured to determine if the mold's growth changes in response to different temperatures.

In Sarah's experiment, the dependent or responding variable is the growth of the bread mold. The dependent variable is what changes or responds based on the changes in the independent variable. In this case, Sarah is checking to see if different temperatures (the independent variable) cause different rates of bread mold growth (the dependent variable). An experiment like this can demonstrate how environmental factors, like temperature, affect living organisms such as mold.

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Answer:

e. 2800 m/s²

Explanation:

Acceleration: This is the rate of change of velocity. The S.I unit of acceleration is m/s²

Applying Newton's equation of motion,

a = (v-u)/t ................................... Equation 1

Where a = acceleration, v = Final velocity, u = Initial velocity, t = time.

Note: Let the direction of the initial velocity be negative, and the direction of the final velocity be positive

Given: v = 26 m/s, u = -30 m/s, t = 20 ms = 0.02 s

Substitute into equation 1

a = [26-(-30)]/0.02

a = (26+30)/0.02

a = 56/0.02

a = 2800 m/s².

Hence the right option is e. 2800 m/s²