Acceleration=Speed1-speed2/Distance traveled
Not enough information. One equation you can often use is Newton's Second Law: force = mass x acceleration Which, when solved for acceleration, gives you: acceleration = force / mass
To find the acceleration if the time is not given, you will need to know the velocity and the distance. Then, use this equation: d = vt + (1/2)at2 to solve the problem by plugging in your numbers for the distance and the velocity.
instantaneus
A speed graph measures the distance devided over time. Acceleration graph measures the change in speed over time.
an object uniformly accerlerates over a distance of 100 m in 20 seconds. calculate the acceleration.
# A car is traveling at a constant velocity with magnitude . At the instant that the car passes a motor cycle officer, the motor cycle accelerates from rest with acceleration . # ## Sketch an graph of the motion of both objects. Show that when the motor cycle overtakes the car, the motorcycle has a speed twice that of the car, no matter what the value of . ## Let be the distance the motorcycle travels before catching up with the car. In terms of , how far has the motorcycle traveled when its velocity equals the velocity of the car?
The average acceleration can be calculated using the formula: acceleration = (change in velocity) / (time taken). In this case, the change in velocity is 20 m/s - 16 m/s = 4 m/s and the distance is 36 meters. Since time is not provided, the acceleration cannot be determined.
To calculate how far the car travels while accelerating, you would need to use the kinematic equation: distance = (initial velocity × time) + (0.5 × acceleration × time^2). Plug in the values of the initial velocity, final velocity, and acceleration into the formula to find the distance traveled.
It depends how fast you are traveling. if there is no acceleration, use time= distance/speed. for linear acceleration google SUVAT equations.
The speed of the object will increase.
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.
25 m/s
It is traveling faster when it hits the object as it is going through a greater distance as it accelerates at the acceleration of gravity. More speed means greater energy and hence a louder sound when it impacts. As Newton would say "Force equals mass times acceleration" so the if water is falling 2 feet it doesn't have the time to accelerate and build up much force behind it. Where water falling 40 feet over a water fall has plenty or time to build speed as it accelerates while falling it builds up a higher Force which creates a greater noise upon impact.
To calculate stopping distance, we need to first find the deceleration of the car using the formula: force = mass x acceleration. Given that force = -3000 N and mass = kg, we can find the acceleration. Once the acceleration is known, we can use the equation of motion: final velocity^2 = initial velocity^2 + 2 x acceleration x distance to calculate the stopping distance.
To calculate the stopping distance, we need more information such as the mass of the car and the acceleration. The force alone is not sufficient to determine the stopping distance.
For a particle traveling in a circle at a constant speed, the acceleration is toward the center of the circle, known as centripetal acceleration. The acceleration is determined by the formula a = v^2 / r, where v is the speed of the particle and r is the distance from the origin (radius of the circle). This relationship shows that as the speed or radius changes, the centripetal acceleration will change accordingly.