What would happen to an inflated balloon in a car on a hot summer day?

Hello, this problem appears in some of the homework, I do not know how to deal with it. If inflatable balloons are placed in the car for a long time, the kinetic energy of the air molecules in the balloon increases as the heat from the sun continually increases. In my understanding, this is to push air molecules into those containers (inside the rubber balloon) and raise the pressure. I would like to know which of these two things will happen.

If the car gets hot enough, will this explode the balloon? Is the pressure of the inside air on the balloon getting bigger and bigger?

Or is it inside the car but does the hot air outside the balloon apply the same pressure to the outside of the balloon so that this will not happen?

What do you think happens if you put a balloon at room temperature on a hot day? The average kinetic energy of the internal gas molecules increases and causes more frequent and strong collisions with the inner wall of the balloon. The balloon looks very fluffy and full, as Mylar balloon has no elasticity and elasticity and even the balloon may rupture.

Hello, this problem appears in some of the homework, I do not know how to deal with it. If inflatable balloons are placed in the car for a long time, the kinetic energy of the air molecules in the balloon increases as the heat from the sun continually increases. In my understanding, this is to push air molecules into those containers (inside the rubber balloon) and raise the pressure. I would like to know which of these two things will happen.

For simple experiments, use balloons, bottles, hot water pots to check air pressure. Inflate the balloon, but do not tie it. Spread over the mouth of the empty bottle. Place the bottle in a pot full of hot water. Leave this experiment for a few minutes and then return to observe the change in balloon size. Hot air inside the bottle moves into the balloon, causing the gas in the balloon to warm up. Observe how the heated gas molecules repel one another and inflate the balloon

Measure the change in the balloon size when exposed to high and low temperature conditions. Collect three identical balloons, thermometers, tape measures. Inflate the balloon. Measure the room temperature and measure the perimeter of the balloon. It is thought that water changes to gas or solid depending on temperature. Let's take a shower in a narrow bathroom and make an environment full of steam. Measure the temperature in the bathroom and place three balloons in hot air. Wait approximately ten minutes or wait until you know that the balloon is bulging. Please measure their surroundings. It takes about 20 minutes to return the balloon to room temperature. Measure the temperature of the big ice box. Put the balloon in cool air. Wait ten minutes, remove balloons and measure their circumference. Considering that hot air accounts for more space than cold air in consideration of balloon size change placed in an environment where temperature changes