approximately how much kinetic energy does an object have from its motion if its mass is 150-kg and it is moving at a speed of 5.0 meters per second?

Answer:

Hey, the answer is Zirconium-93

Explanation:

Im very positive about this question, so i hope I helped you ;p

Answer:

Zirconium-93

Explanation:

when we add up the 40 protons and 53 neutrons it gives 93 and a protons and neutron 93 gives a Zirconium-93

Thanks theres your answer

Answer:

Net force required to accelerate the car is 6000 N

Explanation:

Force is calculated by the equation, F = Mass × Acceleration

This is based on Newton's Second Law of Motion which states that the force acting on an object is its mass times the acceleration of the object.

Here, mass = 3000 kg and acceleration = 2 m/s²

⇒ Force = Mass × Acceleration

             = 3000 × 2 = 6000 N

⇒ F = 6000 N

⇒ M = 3000 kg

⇒ a = 2 m/s²

Answer:

3000g

hope this helps<3

The magnitude of the force that the object exerts on the child is 100 N.

option C is the correct answer.

Newton's third law of motion states that for every action there is an equal and opposite reaction. In other words, action and reaction are equal and opposite.

Mathematically, Newton's third is given as;

Fa = Fb

where;

If the child exerts 100 N force on the object, the reaction of the object or the upward force exerted on the child by the object is 100 N in opposite direction.

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Answer:

55N

Explanation:

Using Newton's second law of motion:

F=ma

Force=mass × acceleration

F=25×2.2

F=55N

So 55 Newtons are needed

Answer:

q = 0.036 C

Explanation:

Given that,

Current passes through a defibrillator, I = 18 A

Time, t = 2 ms

We need to find the charge moved during this time. We know that,

Electric current = charge/time

\(q=It\)

Put all the values,

\(q=18\times 0.002\\\\q=0.036\ C\)

So, 0.036 C of charge moves during this time.

A. The final temperature of the system is 0°C.

B. The amount of ice (if any) remaining is  0.0331 g

C. The initial temperature of the water that would be enough to just barely melt all of the ice is 20.57 °C.

The specific heat is the amount of heat required to change the temperature by 1°C. It is denoted by C.

Heat lost or gained is represented as

Q = m C ΔT

Given, Mass of ice, mice = 9x10⁻² kg, Mass of water, mw =0.35 kg, T = 13 °C

A. If ice is in excess, final water temperature will be 0°C.

B. Specific heat of water Cp = 1000 cal/kg°C

Latent heat of ice L = 80 kcal/kg

In that case, heat lost by water =Heat gain by ice

Q = mCp x dT = mL

0.35 x 1000 x 13 = m x 80 x 1000

m = 0.0569 kg of ice.

The gram of ice remaining = 0.09 - 0.0569

                                             = 0.0331 gram of ice.

Thus,  the amount of ice remaining is 0.0331 g

C. Heat required to melt 90 gram of ice,  Q  mL

Q = 90 x 80 = 7200 cal.

If the initial temperature of water needed = T,

mCp x dT = mL

350 x T = 7200

T = 20.57 °C

Thus,  the initial temperature of the water that would be enough to just barely melt all of the ice is  20.57 °C.

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It takes approximately 0.902 seconds time interval for the ball to strike the ground.

To determine the time interval it takes for the ball to strike the ground, we can use the equations of motion. Since the ball is thrown directly downward, we can assume that the initial velocity (u) is negative (-8.85 m/s), and the acceleration due to gravity (g) is positive (9.8 m/s²).

The equation to calculate the time of flight (t) is

t = (v - u) / g

Where:

v = final velocity (when the ball strikes the ground)

u = initial velocity

g = acceleration due to gravity

In this case, the final velocity when the ball strikes the ground is 0 m/s (as it comes to rest). So, substituting the given values into the equation, we have

t = (0 - (-8.85)) / 9.8

t = 8.85 / 9.8

t = 0.902 seconds

Therefore, it takes approximately 0.902 seconds for the ball to strike the ground.

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Answer:

2.5 m/s²

Explanation:

Given,

Initial speed ( u ) = 10 m/s

Final speed ( v ) = 20 m/s

Time ( t ) = 4 seconds

To find : Acceleration ( a ) = ?

Formula : -

a = ( v - u ) / t

a = ( 20 - 10 ) / 4

= 10 / 4

= 5 / 2

a = 2.5 m/s²

Therefore,

The acceleration of the scooter is 2.5 m/s²

A 5.25 kg block starts at the top of a 16.1 m long incline that has an angle of 10∘ to the horizontal.

a)what was the velocity of the 5.25kg block at the bottom of the ramp? v = _ 6.73 m/s.

b)how much kinetic energy was lost in the collision? δke = _ 68.22 J._ m/s

To solve this problem, let’s break it down into three parts:

a) To find the velocity of the 5.25 kg block at the bottom of the ramp, we can use the principle of conservation of mechanical energy. The initial potential energy of the block at the top of the ramp is equal to the final kinetic energy of the block at the bottom of the ramp. Therefore:

M1 * g * h = (m1 + m2) * v^2 / 2

Where m1 is the mass of the 5.25 kg block, g is the acceleration due to gravity, h is the height of the incline, m2 is the mass of the 7.11 kg block, and v is the velocity of the 5.25 kg block at the bottom of the ramp.

Plugging in the values, we have:

5.25 kg * 9.8 m/s^2 * 16.1 m * sin(10°) = (5.25 kg + 7.11 kg) * v^2 / 2

Solving for v, we get:

V ≈ 6.73 m/s

Therefore, the velocity of the 5.25 kg block at the bottom of the ramp is approximately 6.73 m/s.

b) To find the amount of kinetic energy lost in the collision, we can use the principle of conservation of linear momentum. Before the collision, the total momentum is given by the sum of the individual momenta of the blocks. After the collision, the blocks stick together and move as one mass. Therefore:

(m1 * v1 + m2 * v2)_initial = (m1 + m2) * v_final

Where m1 and v1 are the mass and velocity of the 5.25 kg block, m2 and v2 are the mass and velocity of the 7.11 kg block, and v_final is the common velocity of both blocks after the collision.

Since the 5.25 kg block starts from rest at the top of the ramp, v1 is 0. Plugging in the values and solving for v_final:

(5.25 kg * 0 + 7.11 kg * v2)_initial = (5.25 kg + 7.11 kg) * v_final

7.11 kg * v2 = 12.36 kg * v_final

After the collision, the two blocks stick together, so their final velocity is the same. Therefore:

V_final = v2

The amount of kinetic energy lost in the collision is:

ΔKE = (1/2) * (m1 * v1^2 + m2 * v2^2) – (1/2) * (m1 + m2) * v_final^2

Since v1 is 0 and v_final = v2:

ΔKE = (1/2) * (m2 * v2^2) – (1/2) * (m1 + m2) * v2^2 68.22 J.

Plugging in the values:

ΔKE ≈ 68.22 J

Therefore, the kinetic energy lost in the collision is approximately

c) To find how far the blocks slide to the right on the frictional surface before stopping, we can use the work-energy principle. The work done by the friction force is equal to the change in kinetic energy:

Work = ΔKE

The work done by friction is given by:

Work = force_friction * distance

The force of friction can be calculated using the equation:

Force_friction = μk * (m1 + m2) * g

Where μk is the coefficient of kinetic friction

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Answer:

c.15

FA = Leffort / Llifting

\( \frac{30}{2} \)

=15

169 Kcalories are provided by a portion of food that has 25 grams of carbs, 6 grams of protein, and 5 grams of fat.

Kcalories mean kilo-calories. Basically, kilo-calorie or kcal refers to 1,000 calories. To get the Kcalories of food, you have to add the kcal of carbohydrates, protein, and fat.

Get the product by multiplying the number of grams of carbohydrate, protein, and fat by 4,4, and 9, respectively. So if you want to get the energy or Kcal available from a meal, you must then combine the outcomes.

Simply put it, take note of the following conversions:

So here's how to compute the Kcalories of food that contains 25g carbs, 6g protein, and 5g fat.

1.    25g x 4kcal/g = 100kcal

2.    6g x 4kcal/g = 24kcal

3.    5g x 9kcal/g = 45kcal

4.    100kcal + 24kcal + 45kcal = 169kcal!


Therefore, the food contains 169 kilo-calories!

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Answer:

Is there like an image that comes with this because there's not enough information here.

Explanation:

Answer:

because it can jk jk jk

it spins because the forces of the matter

Explanation:

Answer:

Number 3

Explanation:

Unlike other numbers, this states that wind is "renewable". The choice 2 sounds a bit selfish, or not worded properly, I believe choice 3 is the answer. However, you are the judge of choosing to believe this or not.

Good luck!

The current through resistor R3 is 0.33 A. A circuit with three resistors connected in series is shown below: Circuit diagram of three resistors connected in series As per the given information, R2 has a resistance of 200 ohms and a voltage drop of 30 volts.

Therefore, the voltage drop across R1 is V1 = V - V2 - V3V = voltage supplied to the circuit = voltage drop across R1 + voltage drop across R2 + voltage drop across R3R1 = Resistance of resistor R1.R2 = Resistance of resistor R2 = 200 Ω.V3 = Voltage drop across resistor R3.I3 = Current through resistor R3.To calculate the current in resistor R3, let's follow the steps given below.Step 1: Find the voltage drop across R1.Using Ohm's Law, the voltage drop across R2 is V2 = IR2Substitute the values of V2 and R2 to get the value of current I.I = V2/R2I = 30/200I = 0.15 A

Using Kirchhoff's voltage law, the voltage drop across R1 isV1 = V - V2 - V3V = V1 + V2 + V3Substitute the values of V, V2, and V3 to get the value of V1.V1 = V - V2 - V3V1 = 100 - 30 - V1V1 = 70 VStep 2: Find the current through R3.Using Ohm's Law, the voltage drop across R3 is V3 = I3R3.Substitute the values of V3 and R3 to get the value of current I3.I3 = V3/R3I3 = (V - V1 - V2)/R3I3 = (100 - 70 - 30)/R3I3 = 0.33 A

Therefore, the current through resistor R3 is 0.33 A.

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Answer:

Explanation:

No external force is acting on uranium nucleus so we can apply law of conservation of momentum . If M and m be the mass of bigger and smaller fragments respectively and V and  v be their velocity after fission , Total momentum after fission  = total momentum before fission

MV - mv = 0 , since the nucleus was at rest , its momentum before fission is zero . negative sign of mv is taken because smaller fragment  will move in opposite direction to that of bigger fragment .

MV = mv

M / m = v / V

M > m

Hence,

v > V

So velocity of smaller fragment will be higher .

Answer:

A

Explanation:

The tension T in the string just after the objects are released must be equal and opposite to the accelerations of each mass.

The statement refers to a physical principle known as Newton's third law of motion, which states that for every action, there is an equal and opposite reaction.

In the context of the given statement, it means that the tension (T) in the string, which is the force transmitted through the string, must be equal in magnitude and opposite in direction to the accelerations of each mass.

When objects are released and allowed to move under the influence of gravity, they may be connected by a string or rope. As the objects accelerate due to the force of gravity, the tension in the string changes to keep the objects connected and moving together.

According to Newton's third law, the tension in the string must be equal and opposite to the accelerations of each mass.

If one of the objects has a greater acceleration, the tension in the string must be higher on that side to counteract the greater acceleration.

Similarly, if one of the objects has a lower acceleration, the tension in the string must be lower on that side. This ensures that the net force on each object is balanced and that they move together without breaking the string.

This is because Newton's Second Law states that the sum of the forces on an object is equal to the mass times the acceleration: F = ma. Therefore, the tension T must be the same for both masses, since their accelerations must be equal and opposite.

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Answer:

i wanna say 11 forgive me if wrong.

Explanation:

Answer:

A

Explanation:

Low energy photons (such as radio photons) behave more like waves, while higher energy photons (such as X-rays) behave more like particles.

Answer:

B. It has a short amplitude.

:)

Answer:

550 meters west

Explanation:

Givens: Inital velocity/vi= 5.0m/s, time/t=60.0s, acceleration/a= 0 because a constant velocity means 0 acceleration, inital position/xi=250m

Unknown: final position/xf=?

Formula: xf=xi+vi(t)+1/2at^2

xf=250m+5.0m/s(60.0s)+1/2(0)(60.0s)^2

xf=250m+300m

xf=550m west

its still west because he never chhanged direction therefore his postion kept increasing.

The correct definition of kinetic energy is that kinetic energy is the energy an object has due to its motion.

It is defined as the work needed to accelerate an object from rest to its current velocity. Kinetic energy is proportional to the mass of the object and the square of its velocity and can be calculated using the formula KE = 0.5 × m × v², where m is the mass of the object and v is its velocity.

Kinetic energy is a scalar quantity and has units of joules (J) in the SI system. It is an important concept in physics and has a wide range of applications, from understanding the motion of objects in classical mechanics to describing the behavior of particles in thermodynamics and quantum mechanics.

Therefore, The correct definition of kinetic energy is that kinetic energy is the energy an object has due to its motion.

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Answer:

it is 17 dollars .

Explanation:

I had a test like this and I remember the qeustions

A 9.0-V battery costs $3.00 and will deliver 0.0250 A for 26.0 h before it must be replaced. then the cost per kWh is $512.82.

Energy is nothing but the ability to do work. there are different energies in different form which are thermal energy, mechanical energy, electric energy and sound energy etc. According to first law of thermodynamic, Energy neither be created nor be destroyed. it can only be transferred from one form into another form. Energy is expressed in joule (J). its dimensions are [M¹ L² T⁻²].

The energy delivered by the battery can be calculated using the formula:

energy = power x time

where power is the product of voltage and current, and time is given in hours.

The power delivered by the battery is:

power = voltage x current = 9.0 V x 0.0250 A = 0.225 W

The time for which the battery will deliver this power is 26.0 hours.

So, the energy delivered by the battery is:

energy = power x time = 0.225 W x 26.0 h = 5.85 Wh

To convert Wh to kWh, we divide by 1000:

energy = 5.85 Wh ÷ 1000 = 0.00585 kWh

The cost per kWh can be calculated by dividing the cost of the battery by the energy delivered, and then multiplying by 1000 to convert to dollars per kWh:

cost per kWh = (3.00 dollars / 0.00585 kWh) x 1000 = 512.82 dollars/kWh (rounded to two decimal places)

Therefore, the cost per kWh for this battery is $512.82.

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Answer:

A balance and a beaker of water!

Explanation:

Krishne wants to measure the mass and volume of a key. The tools that are to be used are – a balance and a beaker of water.

Mass will be represent with the amount of matter that is in an object. This will be measured in terms of kilogram. The mass can easily be measured with balance.

Volume is the quantity of matter that is in the object. This is measured in terms of cubic meter. If you drop the key in a beaker of water, the water inside the beaker will increase and this increases the volume of water that will be equal to volume of key.

Answer: If a velocity time graph is horizontal then the velocity is constant and there is no acceleration.

Answer:

2. Repulsion

Explanation:

number two is the answer

Answer:

Repulsion is the surest test which confirms that the given piece of the object is a magnet.

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