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What is the newtons second law of acceleration in the braking distance of vechicles?
install some (arbitrary) numbers:
mass (m) = 1 000 kg
( braking ) force (f) = -10 000 newtons (negative because the force is opposing direction of motion)
braking from 70 metres / sec to rest, so:
u = 70 metres / sec
v = 0 metres / sec
.
first find acceleration (a):
newtons second law: force (f) = mass (m) * acceleration (a)
shuffle to isolate acceleration (a)
acceleration (a) = force / mass = -10 000 / 1 000 = - 10 (m / s) / s
.
now find (braking) distance (s):
use v^2 = (u^2 ) + (2 * a * s)
shuffle to isolate s
s = (v^2 - u^2) / (2 * a)
s = - 4 900 / -20
s = 245 metres
.
time (t) to stop:
use v = u + a * t
shuffle to isolate t
t = (v - u ) / a
t = - 70 / - 10
t = 7 seconds
.
note: these calculations ignore rolling and air resistance, which are additional to the braking force.
What else can I help you with?
How do you Restate newtons first law in terms of acceleration?
By saying that the acceleration is zero.
What is is force equal to according to newtons second law of motion?
(Mass) x (Acceleration)
What is the formula for newtons law of acceleration?
Newton's second law of motion states that the acceleration of an object is directly proportional to the net force acting on it and inversely proportional to its mass. Mathematically, the formula is ( F = ma ), where ( F ) is the net force, ( m ) is the mass of the object, and ( a ) is the acceleration of the object.
As and 10 kg in newton?
Assuming you are on Earth where the acceleration due to gravity equals 9.81 m/s^2 and Force (newtons) = mass ( kilograms) * acceleration ( m/s^2) then 10 kg * 9.81 m/s^2 = 98.1 Newtons.
How do you get the acceleration if the force is newtons and the mass is grams?
To get acceleration when force is in Newtons and mass is in grams, you need to convert the mass from grams to kilograms (1 gram = 0.001 kg) to be consistent with the unit of force (Newton). Then you can use the formula: acceleration = force / mass.
Does the amount of newtons affect the distance of an object?
The amount of force applied (measured in newtons) affects the acceleration of an object, which in turn can affect the distance the object travels. A greater force can lead to greater acceleration and thus the object covering a greater distance in a given time period.
How do you Restate newtons first law in terms of acceleration?
By saying that the acceleration is zero.
What is the acceleration when the force is 50 newton?
That depends on the mass. Acceleration = (50 newtons) divided by (the mass)
I have the weight and force so how do i figure out acceleration?
Acceleration = force in newtons divided by mass in kilograms
How are force mass and acceleration are related by newtons second law of motion?
Force=mass*acceleration
Does mass need to be changed to newtons to find the acceleration?
Mass can't be changed to newtons. The newton is a unit of force, not mass.In order to find the acceleration, you need to know the mass and the force.Then, the acceleration is (force) divided by (mass).
What is the formula to calculate force in newtons when given the mass in kilograms and acceleration in meters per second squared?
The formula to calculate force in newtons is force mass x acceleration.
How do you find linear?
acceleration = force in Newtons/mass in kg
What is the weight of a 352 grams object in newtons?
To convert grams to newtons, you need to divide the weight in grams by the acceleration due to gravity. The acceleration due to gravity is approximately 9.81 m/s^2. Therefore, the weight of a 352-gram object is about 3.61 newtons.
How do you convert from mass to distance?
With extreme difficultly as they measure different things: mass is a measure of how much something weighs*, whereas length is a measure of distance. * Actually weight is the force on a mass due to acceleration and is measured in Newtons. However, weight and mass are often, incorrectly, used interchangeably and I cannot think of a better word to describe mass. To further muddy the waters, mass and distance ARE related by energy and acceleration: energy = (mass × acceleration) × distance which can be rearranged to distance = energy ÷ (mass × acceleration) So for an object given a mass, an acceleration (on earth acceleration due to gravity is a good one) and an amount of energy put in, the distance the object is moved (by that energy [in acting as a force]) can be calculated.
How do you find the weight of an object on earth?
You could weigh it against other objects. If it is not on the surface, multiply its mass by the acceleration of gravity (at that distance) to find its gravitational potential in newtons.
In what units is acceleration expressed a newtons b foot pounds c kilograms d meters per second squared?
Assuming you want the international units: time: second velocity: meters / second distance: meters acceleration: meters / second2
