If you are pushing on a crate on a frictionless surface in one direction, and your friend is pushing on the crate in the opposite direction with an equal amount of force. Which of the following statements is the most accurate? a. The crate will not move as the forces cancel each other out b. Because the surface is frictionless, the crate will always move regardless of who is pushing c. The crate can continue to move, but it will move at a constant velocity d. The net force is towards the direction that you are pushing, as you started the crate's motion

Answer:

The  frequencies are  [tex]f_n = n (0.875 )[/tex]

Explanation:

From the question we are told that

   The speed of the wave is  [tex]v = 0.700 \ m/s[/tex]

   The  length of vibrating  clothesline is  [tex]L = 40.0 \ cm = 0.4 \ m[/tex]

Generally the fundamental frequency is  mathematically represented as

        [tex]f = \frac{v}{2 L }[/tex]

=>     [tex]f = \frac{ 0.700 }{2 * 0.4 }[/tex]

=>     [tex]f = 0.875 \ Hz[/tex]

Now  this other frequencies of vibration experience by the clotheslines are know as harmonics and they are obtained by integer multiple of  the fundamental frequency

So  

   The  frequencies are mathematically represented as

       [tex]f_n = n * f[/tex]

=>     [tex]f_n = n (0.875 )[/tex]

Where  n  =  1, 2, 3 ....

Answer:

The net force on the object is zero.

Explanation:

An object is moving with constant non-zero velocity. If velocity is constant, it means that the change in velocity is equal to 0. As a result, acceleration of the object is equal to 0. Net force is the product of mass and acceleration. Hence, the correct option is (d) "The net force on the object is zero".

For a constant non-zero velocity the net force on the object is zero.

Velocity is defined as the change in displacement per change in time of motion.

[tex]v = \frac{\Delta x}{\Delta t}= \frac{x_2 - x_1}{t_2 - t_1}[/tex]

where;

Δx is the change in displacement

Δt is the change in time motion

When the change in the displacement is same for equal time interval, the resulting velocity will be constant but non-zero in magnitude.

Also, when the net force acting on an object is zero, the object will move with a constant velocity.

[tex]\Sigma F_x = 0[/tex]

Thus, for a constant non-zero velocity the net force on the object is zero.

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Answer:

Answer:

36°

Explanation:

Using

I= (1/2Io) cos²စ

Then Substituting

121W/m² = 1/2*370W/m²cos²စ

0.8086= cosစ

Cos^-1 0.8086= 36°

Answer:

5.8E-3m/s

Explanation:

Using

V= d/t

V= velocity

d= distance

t= time

But d= 2πr

But 180rev= 1min

So 1min/180= 60s/180

So

Vavr= 2π(10m)/180*60

=5.8E-3m/s

Answer:

Explanation:

The potential energy stored in a stretch spring is given by the expression below

PE = Work = force * distance

So:

[tex]PE = (kx) * x[/tex]

This then simplifies to:

[tex]PE = kx^2[/tex]

where k is the spring constant= 140 N/m

Given that x= 25 m

Substituting our data into the expression for P.E stored we have

[tex]PE = 140*25^2\\\\PE= 140*625\\\\PE= 87500 J[/tex]

Hence the energy stored in the spring is 87.5kJ

Answer:

Explanation:

Area= pier^2

=( 1.88/2)^2= 0.0000000314m^2

Intensity= 0.0265/0.000000314

= 7962W/m^2

Pressure= 2*7962)/345= 5.13*10^-5pa

Explanation:

The change in velocity is the final velocity minus the initial velocity.

Δv = v − v₀

Δv = 9 m/s − 2 m/s

Δv = 7 m/s

Answer:

The value is   [tex]\eta = 0.2145[/tex]  or  21.45%

Explanation:

From the question we are told that

    The first reservoir is at steam point  [tex]T_s = 100^o C = 100 + 273 = 373 \ K[/tex]  

    The  second reservoir is at room temperature [tex]T_r = 20^o C = 293 \ K[/tex]

Generally the  maximum theoretical efficiency of a Carnot engine  is mathematically evaluated as

     [tex]\eta = 1- \frac{T_r}{T_s}[/tex]

=>    [tex]1 - \frac{ 293}{373}[/tex]

=>    [tex]\eta = 0.2145[/tex]

Answer:

11

Explanation:

1. You are going to be rounding down.

2. change the metric ton to kg.

1.000 * 10^3 kg = 1000 kg

1000 / 87 = 11.49 = 11 people

Answer:

a burning piece of converts Chemical energy into Heat(Thermal) and Light energy

Answer:

F = 580.25 N

Explanation:

It is given that,

A box at rest on a ramp at an incline of 22°

The normal force on the box is 538 N

We need to find the gravitational force on the box.

The force of gravity acting on an object is equal to its weight. So,

F = mg

But here the box is incline at an angle of 22 degrees

It means that mg will resolve in rectangular components such that, normal force is :

[tex]N=mg\cos\theta\\\\mg=F=\dfrac{N}{\cos\theta}\\\\F=\dfrac{538}{\cos22}\\\\F=580.25\ N[/tex]

So, the gravitational force on the box is 580.25 N.

Explanation:

The full form of LED is Light Emitting Diode. It is a semi conductor source of light which when electrons passes or flows through them, it emits light. In the semi conductor, the electrons recombine with the electron holes to release high amount of energy. This energy is called photon.

When the LED direction is flipped in the breadboard and back to the original position, the LEDs are forced to be grounded. They will not be able to function without being grounded.

Answer:

a

[tex]\lambda = 1.18 \ m[/tex]

b

[tex]v = 77.172 \ m/s[/tex]

c

[tex]T = 151.41 \ N[/tex]

Explanation:

From the question we are told that

   The frequency is  [tex]f = 65.4 \ Hz[/tex]

   The  length of the vibrating string is  [tex]L = 0.590 \ m[/tex]

   The  mass is  [tex]m = 15.0 \ g = 0.015 \ kg[/tex]

Generally the wavelength is mathematically represented as

           [tex]\lambda = 2 * L[/tex]

=>        [tex]\lambda = 2 * 0.590[/tex]

=>         [tex]\lambda = 1.18 \ m[/tex]

Generally the wave speed is  

          [tex]v = \lambda * f[/tex]

=>       [tex]v = 1.18 * 65.4[/tex]

=>       [tex]v = 77.172 \ m/s[/tex]

Generally the tension on the wire is mathematically represented as

        [tex]T = v^2 * \frac{ m }{L }[/tex]

=>      [tex]T = 77.172 ^2 * \frac{ 0.015 }{0.590}[/tex]

=>      [tex]T = 151.41 \ N[/tex]

Answer:

Magnitude of the average induced emf = 36.4 mv

Explanation:

Given:

inductance of the coil (L) = 7 mH

Initial current (Ci) = 0.200 A

Final current (Cf) = 1.50 A

Interval = 0.250 s

Find:

Magnitude of the average induced emf

Computation:

E = L(di/dt)

E = 7 [(1.5-0.20) / 0.250]

E = 7[5.2]

Magnitude of the average induced emf = 36.4 mv

Answer:

for the body to float, the density of the body must be less than or equal to the density of the liquid.

Explanation:

For a block to float in a liquid, the thrust of the liquid must be greater than or equal to the weight of the block.

Weight is

        W = mg

let's use the concept of density

        ρ_body = m / V

        m = ρ_body V

        W = ρ_body V g

The thrust of the body is given by Archimedes' law

        B = ρ_liquid g V_liquid

as the body floats the submerged volume of the liquid is less than or equal to the volume of the block

       ρ_body V g = ρ_liquid g V_liquid

       ρ_body = ρ liquid Vliquido / V_body

As we can see, for the body to float, the density of the body must be less than or equal to the density of the liquid.

Answer: 10 miles

Explanation:

5 miles +5 miles= 10 miles (despite the directions)

This is the distance traveled

-------------------------------------

EXTRA STUFF ( you can literally ignore this part)

If you are asked for displacement instead for distance, then it will be 0 miles because you went 5 miles north and 5 miles south, which at the end, you are still at where you originally were.

Hope this helps!! :)

Explanation:

We know,

1KN = 1000N

Then, Force(F) = 5*1000N

=5000N

Here,

Power (P)=Work(W)/Time(T)

=Force * distance/ Time (W = F*s)

= 5000*15/75

=1000

So, The power of body or object is 1000Watt.

I hope this will be helpful for you.

Answer:

C - higher volume

Explanation:

The pitch or frequency of sound that an object can produce depends upon its size and configuration . The shape of hand of all are same so the frequency of sound produced by hands of all will be almost same . Hence frequency of sound produced by the hands of Anand and Kumar would have been almost the same .

But the intensity of sound produced by them would have been different . Intensity represents energy a sound carries . Hard hitting clap will produce sound of higher intensity . Intensity of sound is also called high volume sound . So Kumar's clap will carry greater energy and hence greater volume of sound .

Answer:

The correct option is a

Explanation:

Psychology can be defined as the "scientific study" of the mind and behavior of humans and other animals. It involves the use of scientific methods in determining or understanding the social, physiological and biological behaviors in different groups or individual organisms

The correct option is a

The following information should be considered:

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Answer:

It is called Reverse biased

Explanation:

It is reverse bias because the voltage potential side of the battery is connected negative to the donor side or p type material and it is connected positive to the N type material or acceptor side across the diode which increases the diode width of the PN junction.

Answer:

14.1 kg

Explanation:

Given:

Length=7.00inches

Width=3.63 inches

Height=1.75 inches

density = 19,300 kg/m3.

We can convert the given parameters to metre for unit consistency

But we know 1 inches= 0.0254 metre

✓Then Length l=7.00inches

=7×0.0254 metre=0.1778m

✓Width w =3.63 inches

==3.63 ×0.0254 metre=0.092m

✓Height h =1.75 inches

=1.75 ×0.0254 metre=0.0445 m

But Mass= density × volume

Volume= Length× width×height

Mass= density× Length× width×height

= 19300kg/m³×0.1778×0.0922×0.0445

=14.1 kg

Therefore, the mass of the gold bar is 14.1 kg

The mass of such a gold bar is of 13.89 kg.

Given data:

The length of gold bar is, [tex]L=7.00 \;\rm in =7.00 \times 0.0254=0.1778 \;\rm m[/tex].

The width of gold bar is, [tex]w= 3.63 \;\rm in =3.63 \times 0.0254 = 0.092 \;\rm m[/tex].

The height if gold bar is, [tex]h = 1.75 \;\rm in =0.044 \;\rm m[/tex].

The density of the gold bar is,  [tex]\rho =19,300 \;\rm kg/m^{3}[/tex].

The given problem is based on the concept of density. The density of any substance is equal to the ratio of mass and volume. Considering the gold bar to rectangular shape, the volume of gold bar is calculated as,

[tex]V= L \times w \times h\\\\V = 0.1778 \times 0.092 \times 0.044\\\\V=7.197 \times 10^{-4} \;\rm m^{3}[/tex]

Now, use the formula of density to calculate the mass of gold bar as,

[tex]\rho =\dfrac{m}{V}\\\\m = \rho \times V\\\\m = 19300 \times (7.197 \times 10^{-4})\\\\m= 13.89 \;\rm kg[/tex]

Thus, we can conclude that the mass of such a gold bar is of 13.89 kg.

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Answer:

-107 m

Explanation:

Sum of forces in the y direction:

∑F = ma

-qE = ma

a = -qE/m

a = -(1.60×10⁻¹⁹ C) (304 N/C) / (9.11×10⁻³¹ kg)

a = -53.4×10¹² m/s²

Given in the y direction:

v₀ = 0 m/s

a = -53.4×10¹² m/s²

t = 2×10⁻⁶ s

Find: Δy

Δy = v₀ t + ½ at²

Δy = (0 m/s) (2×10⁻⁶ s) + ½ (-53.4×10¹² m/s²) (2×10⁻⁶ s)²

Δy = -107 m

Answer:

My answer to the question is "when its displacement is zero.

Answer:

yes

Explanation:

An object which moves in a circle is accelerating. Accelerations are caused by an unbalanced or net force. The net force is always in the same direction as the acceleration. For objects moving in circles at constant speed, the net force is directed towards the center of the circle about which the object moves.

Answer:

A)   Therefore laser1 has the maximum closest to the central maximum

B) Δₓ = 0.8

Explanation:

A) The expression for the constructive interference of a double slit is

           d sin θ  = m λ

let's use trigonometry to find the angle

          tan θ = y / L

in interference phenomena the angles are small

         tan θ = sin θ / cos θ = sin θ

         sin θ = y / L

we subjugate

         d y / L = m λ

         y = m λ L / d

let's apply this equation for each case

a) Lares 1 has a wavelength λ₁ = d / 20, the screen is at L = 6.00 m

they ask us for the first axiom m = 1,

let's calculate

           y₁ = 1 (d / 20) 6.00 / d

           y₁ = 0.3

Laser 2, λ₂ = d / 15

            λ₂ = 1 (d / 15) 6.00 / d

           λ₂ = 0.4

Therefore laser1 has the maximum closest to the central maximum

b) let's find the distance of each requested value

second maximum m = 2 of laser 1

            yi '= 2 (d / 20) 6 / d

            y1 '= 0.6

3rd minimum of laser 2

the expression for destructive interference is

               d sinθ = (m + 1/2) lam

               y = (m ) λ L / d

in this case m = 3

let's calculate

              y2 '= (3+0.5) (d / 15) 6 / d

              y2 '=21/15

They ask us for the dalt of these interference

            Δₓ = y3 -y2'          

           Δₓ = 21/15 - 0.6

           Δₓ = 0.8

Answer:

False

Explanation:

This is because Since the current flowing through a series resonance circuit is the product of voltage divided by impedance, at resonance the impedance, Z is at its minimum value, ( =R ). So, the circuit current at this frequency will be at its maximum value of V/R

Answer:

speed=d/t.

3=d/6.

d=3×6=18m

Answer:

a

  [tex]H_3 = 0.85 \ m[/tex]

b

 [tex]PE = 0.3528 \ J[/tex]

Explanation:

From the question we are told that  

   The  coefficient of resolution is  [tex]C_r = 0.90[/tex]

    The  initial height is  [tex]H_i = 1.60 \ m[/tex]

Considering question a

  The  number of times the ball bounced is [tex]k = 3[/tex]

    Generally the height attained after the 3rd bounce is mathematically represented as

       [tex]H_3 = H_i * (C_r)^{2 * k }[/tex]

 =>    [tex]H_3 = 1.60 * 0.90^{2 * 3 }[/tex]

=>    [tex]H_3 = 0.85 \ m[/tex]

Considering question b

The  mass is  m =  48 g  =  0.048  kg

Generally the amount of potential energy that was lost is mathematically represented as

        [tex]PE = mg [ H_i - H_3 ][/tex]

=>    [tex]PE = 0.048 * 9.8 [1.60 - 0.85 ][/tex]

=>     [tex]PE = 0.3528 \ J[/tex]

Answer:

The simplified expression is [tex]M = \frac{v^2 r}{G}[/tex]

Explanation:

From the question we are told that  

     [tex]M = \frac{ \frac{m v^2}{r} }{\frac{ mG}{r^2 } }[/tex]

So simplifying we have

    [tex]M = \frac{m v^2}{r} * \frac{r^2 }{ mG }[/tex]

    [tex]M = \frac{v^2 r}{G}[/tex]

Thus the simplified formula is [tex]M = \frac{v^2 r}{G}[/tex]

Answer:

See explanation

Explanation:

The electric force exerted on the electron is given by Coulomb's law;

F= KqQ/r^2

F= force on the electron

K= constant of Coulomb's law

q= charge on the electron

Q=charge on the spherical object

r= distance between the charges

F= 9×10^9 × -1.602 × 10^-19 × (-7.2)/(0.03)^2

F= 103.8 × 10^-10/9×10^-4

F= 11.53 ×10^-6

F= 1.153 ×10^-5 N

The force in this case is repulsive

E= F/q

E= 1.153 ×10^-5 N/ 1.602 * 10-19 C

E= 0.719 × 10^14

E= 7.19 × 10^13 NC-1

The electro field around the electron is very strong.

c)

V= Kq/r

V= 9×10^9 × 1.602 × 10^-19/0.001

V= 14418 × 10^-10

V=1.4418 ×10^-6 V

W= qV

W= 1.602×10^-19 C × 1.4418 ×10^-6 V

W= 2.31 ×10^-25 J

Replacing the electron with a positron

F= 9×10^9 × 1.602 × 10^-19 × (-7.2)/(0.03)^2

F= 103.8 × 10^-10/9×10^-4

F= 11.53 ×10^-6

F= -1.153 ×10^-5 N

The force in this case is attractive