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What else can I help you with?
What if instead of just releasing the cart it was initilly given a push would the observed acceleration change?
Giving the cart an initial push will increase its velocity, leading to a higher acceleration due to the change in velocity over time. The acceleration will be influenced by both the initial push and any additional external forces acting on the cart.
When a cart is changing direction is it acceleration?
Consider a graph paper with Axis X and Y. Cart travel in X direction but suddenly, the cart change direction and so it must reduce velocity on X and increase velocity on Y. Net velocity might be the same but small acceleration and deceleration is apply in 2 dimension motion.
Can you think of another way to determine acceleration of the cart?
One way to determine acceleration of the cart is by using a motion sensor to measure the change in velocity over time. Another way is to use a ticker timer to track the position of the cart at different time intervals and calculate the acceleration based on the change in velocity over those intervals.
Cart is rolling down a special ramp where there is no friction at all What will happen if the amount of mass on the cart is increased?
If the mass of the cart is increased, the kinetic energy of the cart will also increase as it rolls down the ramp. The velocity of the cart will increase as well, since the kinetic energy is directly proportional to both mass and velocity squared.
If a 500N net force is applied to a 38 kg cart for 4 seconds what is the cart's final velocity?
The final velocity of the cart can be calculated using the formula: final velocity = initial velocity + (net force/mass) * time. Assuming the initial velocity is 0 m/s, the final velocity would be: 0 + (500N / 38kg) * 4s = 52.63 m/s.
As a cart travels around a horizontal circular track does the cart undergo a change in velocity speed inertia or weight?
Cart experiences a change in velocity(which is a vector quantity, not like speed). Cart's velocity on circular track has to be tangent to track at each point and because of that it has to change its direction. Speed may or not remain the same, you can't tell it changes in each possible case. Mass and weight remain the same.
What if instead of just releasing the cart it was initilly given a push would the observed acceleration change?
Giving the cart an initial push will increase its velocity, leading to a higher acceleration due to the change in velocity over time. The acceleration will be influenced by both the initial push and any additional external forces acting on the cart.
When a cart is changing direction is it acceleration?
Consider a graph paper with Axis X and Y. Cart travel in X direction but suddenly, the cart change direction and so it must reduce velocity on X and increase velocity on Y. Net velocity might be the same but small acceleration and deceleration is apply in 2 dimension motion.
Can you think of another way to determine acceleration of the cart?
One way to determine acceleration of the cart is by using a motion sensor to measure the change in velocity over time. Another way is to use a ticker timer to track the position of the cart at different time intervals and calculate the acceleration based on the change in velocity over those intervals.
Friction causes the velocity of the cart to change from 1.5m/s to 1.0m/s in 0.40 seconds?
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Cart is rolling down a special ramp where there is no friction at all What will happen if the amount of mass on the cart is increased?
If the mass of the cart is increased, the kinetic energy of the cart will also increase as it rolls down the ramp. The velocity of the cart will increase as well, since the kinetic energy is directly proportional to both mass and velocity squared.
the red cart is at rest with a mass of 0.6kg. The blue cart is moving towers the red cart with a velocity of 2.5 m/s and it has a mass of 0.8kg. After a collision between the two carts what is the velocity of the red cart?
Lolz
How can you tell an object has moved?
Because of its velocity (velocity is the rate of change of position), an object will move. An object is stationary if it has no velocity because it will not be able to move without velocity. Therefore, you can tell that an object has moved because of velocity.
If a 500N net force is applied to a 38 kg cart for 4 seconds what is the cart's final velocity?
The final velocity of the cart can be calculated using the formula: final velocity = initial velocity + (net force/mass) * time. Assuming the initial velocity is 0 m/s, the final velocity would be: 0 + (500N / 38kg) * 4s = 52.63 m/s.
Is velocity changing if a cart is going down a ramp?
Yes, the velocity of the cart is changing as it moves down the ramp because its speed and/or direction is changing due to the influence of gravity and any friction between the cart and the ramp surface.
What is the momentum of the cart after it has stopped?
Zero, since the velocity is zero.
Which shopping cart is easier to stop physics problem?
In terms of stopping a physics problem involving a shopping cart, it would be easier to stop a cart with a lower mass and slower velocity. This is because the stopping distance is directly related to the mass and velocity of the object. A lighter cart moving at a slower speed will be easier to stop compared to a heavier cart moving at a faster speed.
