A 0.5 kg ball is thrown horizontally towards a wall with a speed of 10 m/s. The initial velocity is chosen to be the positive x -direction for this question. The ball horizontally rebounds back from the wall with a speed of 10 m/s in the negative x -direction. What is momentum of the ball before it hits the wall, p? What is momentum of the ball after it hits the wall, p,? What is the change in momentum of the ball, delta p? (Give both magnitude and direction for each answer.) Is momentum conserved for the ball?

Answer:

The lens is a concave lens

Explanation:

In concave lens, the image formed is erect. diminished and virtual. The more the distance of the object from the mirror, the more diminished the image formed will be. Concave lens are used in binoculars and telescopes and are installed before or in the eye piece to enable a clear focus.

Answer:

0.126J

Explanation:

To calculate the potential energy of the system U:

Since the charges are the same, and the charges between them are the same.

q1 =q2 = q3 are the charges, and r1=r2=r3 is the distance between their centres.

q = 1.45 μC

r = 0.450 m

1/4πE°(3q^2/r)......... 1

1/4πE° = 9 × 10^9 N⋅m^2⋅C−2,

Substitute the values into equation 1

= 9 × 10^9 N⋅m^2⋅C−2 × {3* (1.45×10^-6)^2/0.450m}

= 9 × 10^9 N⋅m^2⋅C−2×{3*2.1025^-12/0.450m}

= 9 × 10^9 N⋅m^2⋅C^−2×{6.3075^-12}/0.450m

= 9 × 10^9 N⋅m^2⋅C^−2 × 1.401^-11

= 0.12615J

= 0.126J

Answer:

false

Explanation:

(im sorry if im not right but im pretty sure that false is the answer)

Answer:

400mm

Explanation:

Refractive index is the ratio of the wavelength in the shallow water to that in deep water.

Refractive index = λs/λd

Given

Refractive index = 0.5

λs = 200mm

Required

0.5 = 200/λd

λd = 200/0.5

λd = 400mm

Hence the wavelength in deep water is 400mm

Answer:

potential is at maximum

kinetic energy is zero

Answer:

7[tex]\frac{29}{36}[/tex]g/cm³

Explanation:

The formula for density is [tex]\frac{mass}{volume}[/tex]. Let's apply the formula to the question:

[tex]\frac{562}{72}[/tex] = 7[tex]\frac{29}{36}[/tex]g/cm³

Answer:

Explanation:

distance of 4 th bright fringe of unknown light = distance of 3 rd bright fringe of orange light . Let λ be wavelength of unknown light .

4 λ D / d = 3 x 600 x D / d

4 λ = 3  x 600

λ = 450 nm .

Answer:

- Final energy of neutron is 1.557 Mev

- Final energy of nucleus is 0.443 Mev

Explanation:

Given the that;

for ¹⁶O, A = 16

we know that Energy of neutron and nucleus after collision = ( A - 1 / A + 1)² E₀

so we substitute

Fe = ( 16 - 1 / 16 + 1)² × 2

= (0.8823)² × 2

= 1.557 Mev

therefore Final energy of neutron is 1.557 Mev

Final energy of nucleus will be

2 - Final energy of neutron

= 2 - 1.5569

= 0.443 Mev

therefore Final energy of nucleus is 0.443 Mev

Answer:

Average force exerted on car = 250,000 N or 250 KN

Explanation:

Given:

Initial speed u = 20 m/s

Final speed v = 0 m/s

Total distance covered = 1.2 m

Find:

Average force exerted on car

Computation:

v² = u² + 2as

0² = 20² + 2(a)(1.2)

a = -166.67 m/s² or 166.67 m/s²

Average force exerted on car = Ma

Average force exerted on car = (1,500)(166.67)

Average force exerted on car = 250,000 N or 250 KN

Answer:

You need to care for the body to stay fit, healthy and clean.

Answer:

12.5 km/h

Explanation:

For this question, you just need to use the equation x/t = v. X is distance, T is time, and V is velocity. If you need to as well, you could convert km to m and h to s to make it into m/s.

Answer:

D. 1020 J

Explanation:

In a closed system the law of conservation of energy is prevalent.

According to the law of conservation of energy "energy is neither created nor destroyed but transformed from one form to another".

Answer:

The volume of water displaced the same as the volume of the block.

Explanation:

With respect to the principle of floatation, when an object floats in a fluid; its weight is the same as the volume of the fluid displaced.

The volume of the block relates to is dimension and size which can be compared with the volume of the fluid displaced. When the block is floats in water, it would displace a reasonable volume of water.  Thus, it would be expected that the volume of water displaced by the block is equal to the volume of the block.

Answer:

-36 m/s

Explanation:

u = 18m/s

a = -9m/s²

v = ?

t = 6s

from,

v = u + at

v = 18 + (-9)(6)

v = 18 - 54

v = -36m/s

Answer:

Since the object is floating, the buoyant force equals the weight of the water displaced:

W = d g v  where d is the density of water and v = V/2 where v is the volume of the water displaced   and v = V/2 where V is the volume of the object.

W = 1000 kg/m^3 * 9.8 m/s^2 * (3.5 /2 m^3)

W = 17150 kg m / s^2 = 17150 N

When an object floats with half its volume beneath the surface of the water. If the volume of the object is 3.5 m,then the weight of the object would be 17167.5 N if the density of water is 1000 kg/m3

It can be defined as the mass of any object or body per unit volume of the particular object or body. Generally, it is expressed as in gram per cm³ or kilogram per meter³.

The density is the reciprocal of the specific volume of any substance.

The mathematical formula for density is given below

ρ =m /V

where ρ is the density of the substance

m is the mass of the substance

V is the volume of the substance

As given in the problem an object floats with half its volume beneath the surface of the water. The volume of the object is 3.5 m

The density of water is 1000 kg/m3​

According to the Archimedes principle, the buoyancy force acting on  the floating object is equal to the weight of the fluid displaced by it

W =  ρ g V

Given the object floats with half its volume beneath the surface of the water means the volume of the water displaced is half of the volume of the object

V=3.5/2 m³

W = 1000×9.81×3.5/2

   = 17167.5 N

Thus, the weight of the object is 17167.5 N

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Answer:

0.01 s

Explanation:

The following data were obtained from the question:

Mass (m) of baseball = 0.15 kg

Initial velocity (u) = +26 m/s

Final velocity (v) = 0 m/s

Force (F) applied = –390 N

Time (t) =?

Next, we shall determine the acceleration of the baseball. This can be obtained as follow:

Mass (m) of baseball = 0.15 kg

Force (F) applied = –390 N

Acceleration (a) of baseball =?

F = ma

–390 = 0.15 × a

Divide both side by 0.15

a = –390/0.15

a = –2600 m/s²

Finally, we shall determine the time taken for the baseball to stop. This can be obtained as follow:

Initial velocity (u) = +26 m/s

Final velocity (v) = 0 m/s

Acceleration (a) = –2600 m/s²

Time (t) =?

v = u + at

0 = 26 + (–2600 × t)

0 = 26 – 2600t

Collect like terms

0 – 26 = – 2600t

– 26 = – 2600t

Divide both side by – 2600

t = –26 / –2600

t = 0.01 s

Thus, it will take 0.01 s for the baseball to stop.

Answer:

0.01 s

Explanation:

The answer above is correct.

This question is incomplete, the complete question is;

A coil consists of 200 turns of wire. Each turn is a square of side 18 cm, and a uniform magnetic field directed perpendicular to the plane of the coil is turned on. If the field changes linearly from 0 to 0.50 T in 0.80 s,

a) what is the magnitude of the induced emf in the coil while the field is changing?

b) if the resistance of the coil is 2.0, what is the magnitude of the induced current in the coil while the field is changing?

Answer:

a) the magnitude of the induced emf in the coil is 4.05 V

b) induced current in the coil I is 2.025 A

Explanation:

Given that;

side of turn a = 18 cm = 0.18 m

no. of turns N = 200

dB = 0.50 T

time t = 0.80 sec

(a)

what is the magnitude of the induced emf in the coil while the field is changing?

we know that the magnetic flux is equal to the product of the magnetic field in a loop and the area of the loop so;

 ∅ = NBA

expression for the electromotive force is expressed as;

∈ = d∅/dt

Now replace NBA for ∅ in the above equation.

∈ = d(NBA) / dt

= NA(dB/dt)

The expression for the area of each square turn is expressed as follows

A = a²

a is the side of the turn

so we substitute the value of a

A = (0.18) ²

A= 0.0324 m²

 As  earlier derived

formula for the electromotive force is as follows:

∈  = NA(dB/dt)

so we substitute all our values

∈ =  (200)(0.0324m²) (0.50T/0.80s)

∈ = 6.48 × 0.625

∈ = 4.05 V

Therefore the magnitude of the induced emf in the coil is 4.05 V

(b)

if the resistance of the coil is 2.0, what is the magnitude of the induced current in the coil while the field is changing?

we know that the current induced in the circuit is equal to the ratio between the electromotive forces to the resistance of the ring so;

I = ∈ / R

given that; resistance of the coil = 2.0

so we substitute

I = 4.05 / 2.0

I = 2.025 A

Therefore induced current in the coil I is 2.025 A

Answer:

A) If you halve the wavelength, the electromagnetic radiation energy will double.

B) The energy of the electromagnetic radiation will halve if you halve the wavenumber.

C) When the frequency of the light is doubled, its energy will double.

Explanation:

The function for the light frequency is given as

The energy supplied to each electron is doubled by halving the wavelength, nearly doubling its kinetic energy by two after it is free from the metal. It is important to remember that for a given period of time, the number of electrons ejected will remain constant.

Cheers

Answer:

12.6 m/s

Explanation:

We know that the linear speed v = rω where r = radius and ω = angular acceleration. Given that ω = 62.8 rad/s and r = 20 cm from center = 0.2 cm

So, v = rω

= 0.2 m × 62.8 rad/s

= 12.56 m/s

≅12.6 m/s

Answer:

Materials that absorb sunlight well include dark surfaces, water and metal. The sun's light energy arrives as a mixture of visible light, ultraviolet and infrared; some materials absorb all these wavelengths well, while others are better suited to a certain restricted types of light.

Answer:

i think issa uh.. i think issa carrot

Explanation:

Answer: Left cheek from the sun

Explanation:

Answer:

5m/s²

Explanation:

The force exerted on an object is calculated using the formula ;

F = ma

Note that the upward force (F) is 148N

Where;

F = force (N)

m = mass (kg)

a = acceleration (m/s²)

The downward force towards gravity is F' = mg

F' = 10 × 9.8m/s²

F' = 98N

Net force (F - F') = m × a

148 - 98 = 10 × a

50 = 10a

a = 50/10

a = 5m/s²

Answer:

The answer is B on khan academy

Explanation:

A frog leaps with a displacement equal to vector u and then leaps with a displacement equal to vector v, as shown below.

Which diagram(s) shows a valid way to find the frog's total displacement?

THE ANSWER IS IN THE ATTACHMENT!

By dividing an uphill or downward movement into smaller increments, an inclined plane facilitates work.

An inclined plane wrapped around a cylinder is how a screw looks. It increases the forward driving power from a tiny rotational force.

A basic device with a sloping surface called an inclined plane is used to lift heavy objects. When friction is taken into account, the force needed to move an object up an incline is less than the weight being raised. The needed force is closer to the real weight the higher the slope or incline.

A screw is a device that transforms rotational motion into linear motion and a torque's (a rotational force's) linear force into rotational motion. One of the six traditional simple machines, it. The most typical design consists of a cylindrical shaft with external threads, which are helical ridges or grooves.

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Answer:

yes

Explanation:

Answer:

84 protons and 128 neutron

Answer:

Explanation:

The modern United Kingdom and France, by virtue of most government power being held by the central, national government,

Answer:

The answer Iswhat the other person said

Explanation: